MAT
dc75_ff56
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_911b
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_b07c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_6b39
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_e270
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses energy from light and organic material from other organisms MATdc75_ac60
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_74ff
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_2c26
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_47b1
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_6184
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_4ca7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_b619
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_5bf0
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_3169
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_6f3e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_1ffb
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_6fe4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_1e07
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_b947
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_e184
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_def7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_e4fd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_89ae
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_baec
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_6ae7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source MATdc75_20fd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_f5f0
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_5c34
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_e879
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_aee3
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_1265
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_c031
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_d3f3
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_235e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_a761
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_90c3
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_6cd2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_a0f6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_a0bb
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_1672
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_1d23
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source MATdc75_3926
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_d061
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_f333
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_6231
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_6671
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_e3a2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses energy from light and organic material from other organisms MATdc75_fcdd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_a36e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_358a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_ef0a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_b13d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_b320
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_54d4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_b08a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_3560
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_9cef
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_806c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_f762
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_c5fd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_a720
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_80c5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_b794
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_91b6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_5ecf
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_cfd8
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_c6a4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_4e19
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_45e1
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_2360
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_240d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_a47f
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_7756
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_fcbd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_bb21
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_53a7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_614c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_3015
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_a5b7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_95fb
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_6b1f
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_3594
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival MATdc75_1680
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_5cc4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material as its carbon source MATdc75_485e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_f853
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_70fd
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_f6b2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_0056
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_569f
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_3353
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_9501
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_47a4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_983c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_d35e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_1107
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_cb12
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_6634
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_757f
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_a440
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_43c8
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_298b
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_5724
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_80c0
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_5536
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_2ea4
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_c1de
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival MATdc75_adab
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_0463
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_9d80
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_3f6c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_f2ae
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_29fa
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_3ba5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_737e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_88c5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_c083
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_ce06
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_88b8
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_75d1
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_8066
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_0192
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_c69a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_7e9a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_800e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_1d2e
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_f475
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_0d51
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_c646
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_32c7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_d2a6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_3646
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_eeb6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_76d1
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_4802
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_7662
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_7506
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_3ec7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_245a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_e74a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_f698
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_5c5b
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_a818
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_82a0
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_bd8a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph obtains energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_9035
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_eb47
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_3a4a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_f1a3
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_fad6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_4fc5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms MATdc75_9b8a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_5096
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_6deb
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_9eb9
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_5fbf
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_473a
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_f4d2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_fe9d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_4ddb
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_ef3d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source MATdc75_bae6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoautotroph obtains energy by oxidizing inorganic compounds chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_905d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_c874
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms MATdc75_9601
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_5a70
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_f644
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_c0dc
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_2dd2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_b0b9
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_75d8
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_2261
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_ff07
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_5e4b
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_6856
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_b040
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph obtains energy from light and organic material from other organisms chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_df6d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_0556
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph obtains energy by oxidizing inorganic compounds MATdc75_0d98
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_0da0
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_9f6d
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source MATdc75_8f20
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source MATdc75_f328
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs MATdc75_10a7
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_6112
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival MATdc75_aa8b
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_edd2
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source MATdc75_52e3
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph derives its energy using inorganic chemicals, but its carbon from other organisms MATdc75_a080
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoautotroph obtains energy by oxidizing inorganic compounds chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival MATdc75_28d5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_c280
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_3db5
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source MATdc75_9253
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material as its carbon source photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_9792
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses inorganic compounds for both energy and carbon source chemoorganoheterotroph uses organic compounds for both energy and its carbon source MATdc75_66ef
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photolithoautotroph uses light for energy and carbon dioxide as a carbon source chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photoorganoheterotroph obtains energy from light and organic material from other organisms chemolithoheterotroph its energy from the oxidation of inorganic compounds, but uses organic compounds as its carbon source MATdc75_f6be
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
chemoorganoheterotroph uses organic compounds for both energy and its carbon source photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoautotroph uses inorganic compounds for both energy and carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source photolithoautotroph uses light for energy and CO2 as a carbon source MATdc75_c7d6
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph uses light for energy, but requires organic compounds from other organisms to provide the carbon it needs chemolithoautotroph uses sulfur, iron, or nitrogen as energy sources and carbon dioxide as a carbon source photolithoautotroph uses light for energy and CO2 as a carbon source chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms MATdc75_d25c
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photoorganoheterotroph relys on light for energy and organic compounds from other organisms for survival chemolithoheterotroph uses sulfur, iron, or nitrogen as energy sources, but uses organic compounds from other organisms as its carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photolithoautotroph obtains energy from light and its organic material is derived from carbon dioxide MATdc75_4f79
Match each of the following trophic organisms with their corresponding definitions.
Note: Each choice will be used exactly once.
photolithoautotroph uses light for energy and CO2 as a carbon source chemoorganoheterotroph derives its energy using organic chemicals from consuming other organisms chemolithoautotroph obtains energy by oxidizing inorganic compounds photoorganoheterotroph uses energy from light and organic material from other organisms chemolithoheterotroph uses inorganic compounds for energy, but uses organic compounds as its carbon source