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Page 204
... Solar Energy How the Calvin Cycle Makes Sugar Photorespiration C4 Plants CAM Plants The Fate of Photosynthetic Products L ife on Earth is solar - powered . The chloro- plasts of plants capture light energy that has traveled 160 million ...
... Solar Energy How the Calvin Cycle Makes Sugar Photorespiration C4 Plants CAM Plants The Fate of Photosynthetic Products L ife on Earth is solar - powered . The chloro- plasts of plants capture light energy that has traveled 160 million ...
Page 209
... solar energy to make ATP and NADPH , which function as chemical energy and reducing power , respectively , in the Calvin cycle . The actual incorporation of CO2 into organic molecules occurs in the Calvin cycle . Thylakoid membranes ...
... solar energy to make ATP and NADPH , which function as chemical energy and reducing power , respectively , in the Calvin cycle . The actual incorporation of CO2 into organic molecules occurs in the Calvin cycle . Thylakoid membranes ...
Page 511
... solar system is relatively rich in the heavier elements that formed by fusion from smaller atoms in the crucibles of ancestral stars . Most of the swirling matter in the disk - shaped cloud of dust that formed our solar sys- tem ...
... solar system is relatively rich in the heavier elements that formed by fusion from smaller atoms in the crucibles of ancestral stars . Most of the swirling matter in the disk - shaped cloud of dust that formed our solar sys- tem ...
Contents
Themes in the Study of Life | 1 |
UNIT ONE The Chemistry of Life | 15 |
Atoms Molecules and Chemical Bonds | 20 |
Copyright | |
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active adaptive algae allele amino acids animals asexual atoms bacteria biology called Calvin cycle carbon cell walls cellular Chapter chemical chlorophyll chloroplasts chromosome complex covalent cycle cytoplasm diploid disease diversity electron transport chain embryo energy environment enzymes eukaryotic eukaryotic cells evolution evolutionary evolved example fertilization Figure flowers fossil function fungi gametes gametophyte gene pool genetic genome genotype glucose glycolysis haploid human hydrogen bonds inherited ions living meiosis metabolic microscope microtubules minerals mitochondria mitosis molecular mRNA multicellular mutations natural selection nitrogen nucleotide nucleus nutrients occurs organelles organic molecules oxidized oxygen pair pathway phage phenotype phosphate photosynthesis phylum plant cells plasma membrane polypeptide population produce prokaryotes protein protists proton reaction recombinant replication reproduction respiration ribosomes root seed sequence sexual soil solution speciation species sperm strand structure sugar synthesis tion tissue traits vascular vertebrates viruses xylem zygote