Microbial mat||133.61 Carnivorous plant||133.61 Thylakoid||125.75 Chloroflexus aurantiacus||102.17 Primary production||94.31 Dioxygen in biological reactions||94.31 Artificial photosynthesis||94.31 RuBisCO||86.45 Robin Hill (biochemist)||86.45 Carbon dioxide||78.59 Cyanobacteria||78.59 Oxygen evolution||78.59 Plant||78.59 Algae||70.73 Photosynthetic reaction centre||70.73 Plastid||70.73 Photodissociation||62.87 Plant physiology||55.01 Stoma||55.01 Chlamydomonas reinhardtii||55.01 Plant nutrition||55.01 C4 carbon fixation||55.01 Chloroplast||47.15 Artificial sunlight||47.15 DCMU||47.15 Argument from poor design||47.15 Habitability of red dwarf systems||47.15 Cornelius Van Niel||47.15 Calvin cycle||47.15 Dole effect||47.15 Oxygen cycle||39.29 Timeline of plant evolution||39.29 Trichodesmium||39.29 Photosystem II||39.29 Crassulacean acid metabolism||39.29 Photosynthetic reaction center protein family||39.29 Glyceraldehyde 3-phosphate||39.29 Dutch inventions and discoveries||39.29 Rhodospirillum rubrum||39.29 Photorespiration||39.29 Photosynthetic pigment||39.29 Plant respiration||39.29 Photosystem||31.43 Phosphoenolpyruvate carboxylase||31.43 Photoinhibition||31.43 Dichlorphenolindophenol||31.43 Suess effect||31.43 Light-dependent reaction||31.43 Hill reagent||31.43