| Name | Number Pages |
|---|
| plants | 46 |
| university of illinois | 36 |
| such | 31 |
| urbana | 29 |
| department of plant biology | 28 |
| plant | 28 |
| model | 28 |
| 265 morrill hall | 27 |
| photosynthesis | 26 |
| use | 26 |
| usa | 25 |
| plant secondary metabolism | 24 |
| illinois 61801 | 23 |
| plant biology 363 | 23 |
| wimovac | 23 |
| 505 s. goodwin ave. | 23 |
| one | 22 |
| more | 21 |
| 1991 | 20 |
| possible | 20 |
| 1992 | 20 |
| compounds | 20 |
| number | 19 |
| others | 19 |
| leaf | 19 |
| common | 19 |
| temperature | 19 |
| changes | 19 |
| example | 19 |
| c | 18 |
| order | 18 |
| 1 | 18 |
| part | 18 |
| toxic | 17 |
| time | 17 |
| species | 17 |
| addition | 17 |
| long | 17 |
| leaves | 17 |
| models | 17 |
| 1995 | 17 |
| 1993 | 17 |
| 1980 | 16 |
| group | 16 |
| many | 16 |
| canopy | 16 |
| effects | 16 |
| co2 | 15 |
| structure | 15 |
| form | 15 |
| work | 15 |
| results | 15 |
| important | 15 |
| available | 15 |
| system | 14 |
| due | 14 |
| 2 | 14 |
| approach | 14 |
| first | 14 |
| 1990 | 14 |
| e.g. | 14 |
| compound | 13 |
| 1989 | 13 |
| 1987 | 13 |
| roots | 13 |
| 1994 | 13 |
| data | 13 |
| biosynthesis | 13 |
| 1985 | 13 |
| growth | 13 |
| 5 | 13 |
| similar | 13 |
| day | 13 |
| much | 13 |
| productivity | 13 |
| development | 13 |
| fungi | 12 |
| 1996 | 12 |
| questions | 12 |
| useful | 12 |
| interactions | 12 |
| insects | 12 |
| 1988 | 12 |
| nature | 12 |
| water | 12 |
| series | 12 |
| other | 11 |
| climate change | 11 |
| 1984 | 11 |
| response | 11 |
| soil | 11 |
| 10 | 11 |
| jones | 11 |
| values | 11 |
| light | 11 |
| 3 | 11 |
| able | 11 |
| 1997 | 11 |
| effect | 11 |
| stomatal conductance | 11 |
| alkaloids | 10 |
| difficult | 10 |
| genus | 10 |
| atmosphere | 10 |
| equations | 10 |
| 20 | 10 |
| responsible | 10 |
| b | 10 |
| course | 10 |
| material | 10 |
| activity | 10 |
| complex | 10 |
| relationship | 10 |
| canopy level | 10 |
| canopy photosynthesis | 10 |
| basis | 10 |
| parameters | 10 |
| simple | 10 |
| 4 | 10 |
| nitrogen | 10 |
| vcmax | 9 |
| understanding | 9 |
| families | 9 |
| lab | 9 |
| need | 9 |
| ratio | 9 |
| formation | 9 |
| ii | 9 |
| students | 9 |
| increase | 9 |
| humphries | 9 |
| rate | 9 |
| simulation | 9 |
| potential | 9 |
| other plants | 8 |
| two | 8 |
| measurements | 8 |
| lecture | 8 |
| fabaceae | 8 |
| low | 8 |
| wheat | 8 |
| account | 8 |
| processes | 8 |
| equation | 8 |
| transpiration | 8 |
| 50 | 8 |
| fruits | 8 |
| synthesis | 8 |
| campbell | 8 |
| production | 8 |
| manner | 8 |
| pathway | 8 |
| cyclization | 8 |
| environment | 8 |
| function | 8 |
| study | 8 |
| carbon | 8 |
| present | 8 |
| necessary | 8 |
| members | 8 |
| leaf level | 8 |
| three | 8 |
| iii | 8 |
| change | 8 |
| hall | 8 |
| systems | 8 |
| relationships | 8 |
| proposed | 8 |
| turn | 8 |
| humans | 8 |
| animals | 8 |
| photosynthetic apparatus | 8 |
| distribution | 8 |
| active | 8 |
| g | 8 |
| m | 8 |
| air | 8 |
| year | 8 |
| combination | 7 |
| stomatal closure | 7 |
| seeds | 7 |
| limited | 7 |
| decline | 7 |
| simulated | 7 |
| predictions | 7 |
| 60 | 7 |
| parameterise | 7 |
| range | 7 |
| r | 7 |
| introduction | 7 |
| type | 7 |
| likely | 7 |
| 1983 | 7 |
| conditions | 7 |
| semester | 7 |
| class | 7 |
| respect | 7 |
| research | 7 |
| equal | 7 |
| intermediate | 7 |
| prediction | 7 |
| turnover | 7 |
| zero | 7 |
| group of compounds | 7 |
| name | 7 |
| elevated co2 | 7 |
| most | 7 |
| ground | 7 |
| easy | 7 |
| constant | 7 |
| farquhar | 7 |
| decrease | 7 |
| little | 7 |
| reduction | 7 |
| interactive effects | 7 |
| papyrus | 7 |
| thornley | 7 |
| requirement | 7 |
| 100 | 7 |
| alkaloid | 7 |
| means | 7 |
| assimilation | 7 |
| top | 7 |
| 1982 | 7 |
| carbon dioxide | 7 |
| 1977 | 7 |
| ozone | 7 |
| bacteria | 7 |
| magnitude | 7 |
| past | 7 |
| information | 7 |
| user | 7 |
| rise | 7 |
| shaded leaves | 6 |
| mechanism | 6 |
| d | 6 |
| increases | 6 |
| case | 6 |
| root | 6 |
| h | 6 |
| will | 6 |
| acid | 6 |
| program | 6 |
| dependent | 6 |
| student | 6 |
| details | 6 |
| structures | 6 |
| global climate change | 6 |
| trees | 6 |
| precursors | 6 |
| lack | 6 |
| lai | 6 |
| j | 6 |
| environmental conditions | 6 |
| different | 6 |
| application | 6 |
| antitumor activity | 6 |
| leaf temperature | 6 |
| higher plants | 6 |
| detritus | 6 |
| value | 6 |
| evidence | 6 |
| uk | 6 |
| n | 6 |
| knowledge | 6 |
| end | 6 |
| monoterpenes | 6 |
| protein | 6 |
| von caemmerer | 6 |
| same | 6 |
| web site | 6 |
| cell | 6 |
| model parameter database | 6 |
| 1975 | 6 |
| relative humidity | 6 |
| can | 6 |
| enzymes | 6 |
| appropriate | 6 |
| phenylalanine | 6 |
| note | 6 |
| way | 6 |
| rubisco | 6 |
| responses | 6 |
| several | 6 |
| problem | 6 |
| comments | 6 |
| 1981 | 6 |
| climate | 6 |
| absence | 6 |
| muthuri | 6 |
| field | 6 |
| university | 6 |
| depth | 6 |
| crops | 6 |
| 0 | 6 |
| experimental data | 6 |
| formulation | 6 |
| respiration | 6 |
| studies | 6 |
| less | 6 |
| observed | 6 |
| precursor | 6 |
| leaf area index | 6 |
| intermediates | 6 |
| key intermediate | 6 |
| stem | 6 |
| layer | 5 |
| w | 5 |
| thesis | 5 |
| biology | 5 |
| ability | 5 |
| fact | 5 |
| windows intuitive model of vegetation response | 5 |
| vegetation | 5 |
| bottom | 5 |
| assimilation rate | 5 |
| related compounds | 5 |
| dmapp | 5 |
| 26 | 5 |
| www.life.uiuc.edu port | 5 |
| 15 | 5 |
| differences | 5 |
| glycosides | 5 |
| yellow | 5 |
| graded | 5 |
| amount | 5 |
| assumption | 5 |
| maize | 5 |
| biomass | 5 |
| direct | 5 |
| lake naivasha | 5 |
| greater | 5 |
| temperatures | 5 |
| method | 5 |
| appendix ii | 5 |
| doxp pathway | 5 |
| widespread | 5 |
| hypothesis | 5 |
| parameterisation | 5 |
| theory | 5 |
| co2 assimilation | 5 |
| etc. | 5 |
| reynolds | 5 |
| ca | 5 |
| test | 5 |
| new york | 5 |
| acute ozone exposure | 5 |
| source | 5 |
| result | 5 |
| mechanistic model | 5 |
| enzyme | 5 |
| density | 5 |
| total | 5 |
| drake | 5 |
| action | 5 |
| effective | 5 |
| larcher | 5 |
| 1986 | 5 |
| iteration | 5 |
| measured | 5 |
| plant growth | 5 |
| rates | 5 |
| humidity | 5 |
| 1970 | 5 |
| pigments | 5 |
| o3 | 5 |
| times | 5 |
| copy | 5 |
| asclepiadaceae | 5 |
| site | 5 |
| world | 5 |
| server | 5 |
| parameter values | 5 |
| five | 5 |
| lysine | 5 |
| chapman | 5 |
| methods | 5 |
| rubiaceae | 5 |
| 1948 | 5 |
| faculty | 5 |
| comparison | 5 |
| many animals | 5 |
| fedora | 5 |
| chloroplasts | 5 |
| construction | 5 |
| parts | 5 |
| physiological | 5 |
| size description parent directory | 5 |
| access | 5 |
| amino acids | 5 |
| two types | 5 |
| apiaceae | 5 |
| link | 5 |
| place | 5 |
| second | 5 |
| rutaceae | 5 |
| monteith | 5 |
| future | 5 |
| thermal time | 5 |
| cases | 5 |
| empirical | 5 |
| rank | 5 |
| norman | 5 |
| damage | 5 |
| sunlit | 5 |
| kenya | 5 |
| family | 5 |
| collatz et al. | 5 |
| examples | 5 |
| wind speed | 5 |
| concentration | 5 |
| testing | 5 |
| ci | 5 |
| author | 5 |
| name last | 5 |
| time interval | 5 |
| measurement | 5 |
| capacity | 5 |
| death | 5 |
| molecule | 5 |
| analysis | 5 |
| index of | 5 |
| gs | 5 |
| irradiance | 5 |
| important component | 5 |
| attempt | 5 |
| dark respiration | 4 |
| conductance | 4 |
| triterpenes | 4 |
| isoprene | 4 |
| tropics | 4 |
| variable | 4 |
| 25 | 4 |
| dynamics | 4 |
| users | 4 |
| factor | 4 |
| other families | 4 |
| mccree | 4 |
| 1979 | 4 |
| calculations | 4 |
| maximum | 4 |
| small | 4 |
| effective ozone dose | 4 |
| predict the effects | 4 |
| e | 4 |
| elevated | 4 |
| rd | 4 |
| ornithine | 4 |
| appendices | 4 |
| height | 4 |
| reading | 4 |
| specified | 4 |
| 1973 | 4 |
| simple model | 4 |
| co2 concentrations | 4 |
| position | 4 |
| harley et al. | 4 |
| model simulation | 4 |
| code | 4 |
| units | 4 |
| implications | 4 |
| mass | 4 |
| terms | 4 |
| impact | 4 |
| feedback | 4 |
| contrast | 4 |
| expression | 4 |
| whilst | 4 |
| 1978 | 4 |
| birds | 4 |
| culm | 4 |
| 1968 | 4 |
| proteins | 4 |
| class notes | 4 |
| metabolism | 4 |
| dry weight | 4 |
| literature | 4 |
| mesophyll | 4 |
| eddy covariance measurements | 4 |
| sterculiaceae | 4 |
| ozone uptake | 4 |
| discussions | 4 |
| importance | 4 |
| periods | 4 |
| levels | 4 |
| role | 4 |
| more difficult | 4 |
| co2 concentration | 4 |
| control | 4 |
| names | 4 |
| euphorbiaceae | 4 |
| number of plants | 4 |
| grade | 4 |
| minimum | 4 |
| new | 4 |
| table | 4 |
| model simulations | 4 |
| latter | 4 |
| slope | 4 |
| diphosphate | 4 |
| integrated | 4 |
| q | 4 |
| plastids | 4 |
| linear relationship | 4 |
| english | 4 |
| sorghum | 4 |
| farquhar et al. | 4 |
| pp | 4 |
| f | 4 |
| people | 4 |
| techniques | 4 |
| fall | 4 |
| mediated | 4 |
| genera | 4 |
| photorespiration | 4 |
| ring | 4 |
| variation | 4 |
| attempts | 4 |
| compounds such | 4 |
| ball et al. | 4 |
| asteraceae | 4 |
| structural type | 4 |
| complete | 4 |
| vegetation models | 4 |
| effects of ozone | 4 |
| software | 4 |
| color | 4 |
| hydrocarbons | 4 |
| solar radiation | 4 |
| windows | 4 |
| open | 4 |
| apocynaceae | 4 |
| isolation | 4 |
| true | 4 |
| component | 4 |
| location | 4 |
| mexico | 4 |
| observations | 4 |
| 200 | 4 |
| assignment | 4 |
| water stress | 4 |
| higher | 4 |
| properties | 4 |
| vapour pressure deficit | 4 |
| dose | 4 |
| 650 | 4 |
| c3 | 4 |
| ogren | 4 |
| martin | 4 |
| steps | 4 |
| canopy structure | 4 |
| 30 | 4 |
| ed | 4 |
| eucalyptus | 4 |
| loss | 4 |
| rest | 4 |
| process | 4 |
| contribution | 4 |
| fraction | 4 |
| own | 4 |
| m3 | 4 |
| quantum yield | 4 |
| seed | 4 |
| modifying | 4 |
| lawlor | 4 |
| apparent | 4 |
| reaction | 4 |
| rubp | 4 |
| final grade | 4 |
| farage | 4 |
| variety | 4 |
| mail | 4 |
| wheat photosynthesis | 4 |
| day of year | 4 |
| et al. | 4 |
| illinois | 4 |
| conjunction | 4 |
| energy budget | 4 |
| constants | 4 |
| 1965 | 4 |
| plant biology | 4 |
| relation | 4 |
| stomatal response | 4 |
| solanaceae | 4 |
| file | 4 |
| study site | 4 |
| ambient | 4 |
| 40 | 4 |
| italy | 4 |
| rotation | 4 |
| consistent | 4 |
| exposure | 4 |
| start | 4 |
| components | 4 |
| shoot | 4 |
| oxidation | 4 |
| jmax | 4 |
| model construction | 4 |
| forms | 4 |
| following | 4 |
| area | 4 |
| significant | 4 |
| co2 uptake | 4 |
| livestock | 4 |
| uniform | 4 |
| treatment | 4 |
| many plants | 4 |
| 2000 | 4 |
| version | 4 |
| text | 4 |
| oxygen | 4 |
| few | 4 |
| late | 4 |
| 7 | 4 |
| ecosystems | 4 |
| isoprene emission | 4 |
| home | 4 |
| modelling | 4 |
| derivation | 4 |
| kpa | 4 |
| algae | 4 |
| region | 4 |
| condensation | 4 |
| list | 4 |
| inclusion | 4 |
| johnson | 4 |
| east africa | 4 |
| answers | 4 |
| diterpenes | 4 |
| tyrosine | 4 |
| evident | 4 |
| stand | 4 |
| date | 4 |
| t | 4 |
| indicated | 4 |
| iv | 4 |
| dna | 4 |
| history | 4 |
| unpublished | 4 |
| behaviour | 3 |
| topic | 3 |
| atmospheric co2 | 3 |
| 11 | 3 |
| 19 | 3 |
| leaf photosynthesis | 3 |
| reactions | 3 |
| tuesday | 3 |
| gre | 3 |
| soil types | 3 |
| plural | 3 |
| interact | 3 |
| london | 3 |
| journal | 3 |
| canopy profile | 3 |
| underlying assumption | 3 |
| types | 3 |
| update | 3 |
| of interest | 3 |
| comparable | 3 |
| l | 3 |
| subject | 3 |
| k | 3 |
| general | 3 |
| inputs | 3 |
| m.b. | 3 |
| beginning | 3 |
| experimental site | 3 |
| see | 3 |
| c3 plants | 3 |
| mechanisms | 3 |
| sterols | 3 |
| england | 3 |
| time of day | 3 |
| host | 3 |
| r.c. leegood | 3 |
| california | 3 |
| department | 3 |
| heat | 3 |
| porter | 3 |
| ultimate aim | 3 |
| same plant | 3 |
| scrophulariaceae | 3 |
| background | 3 |
| j. | 3 |
| family names | 3 |
| related families | 3 |
| genes | 3 |
| aspen | 3 |
| mmol | 3 |
| clear | 3 |
| 8 | 3 |
| cell cycle | 3 |
| flowers | 3 |
| difficulties | 3 |
| quantity | 3 |
| labiatae | 3 |
| palmae | 3 |
| something | 3 |
| photosynthesis research | 3 |
| isoprene emission rates | 3 |
| chronic ozone exposure | 3 |
| increased temperature | 3 |
| pb260 | 3 |
| h.r. | 3 |
| stroma | 3 |
| fluxes | 3 |
| consequences | 3 |
| 35 | 3 |
| calculated | 3 |
| table 1 | 3 |
| madison | 3 |
| red | 3 |
| incident solar radiation | 3 |
| threshold flux of ozone | 3 |
| software package | 3 |
| increased | 3 |
| h2o | 3 |
| feed | 3 |
| c3 species | 3 |
| texas | 3 |
| surface | 3 |
| membranes | 3 |
| cholesterol | 3 |
| 17 | 3 |
| dry matter production | 3 |
| lower | 3 |
| eddy covariance technique | 3 |
| plant canopy | 3 |
| related species | 3 |
| scientific names | 3 |
| europe | 3 |
| references | 3 |
| one week | 3 |
| sufficient | 3 |
| penalties | 3 |
| diffuse | 3 |
| orchidaceae | 3 |
| product | 3 |
| 2m | 3 |
| experimental conditions | 3 |
| singular | 3 |
| hallucinogenic | 3 |
| penalty | 3 |
| spain | 3 |
| free | 3 |
| brown | 3 |
| two ways | 3 |
| 13 | 3 |
| included genus | 3 |
| united states | 3 |
| right | 3 |
| wheat leaf photosynthesis | 3 |
| portion | 3 |
| substances | 3 |
| of ozone | 3 |
| protein synthesis | 3 |
| maximum temperature | 3 |
| loading | 3 |
| silver | 3 |
| d.o. hall | 3 |
| environmental change | 3 |
| latitude | 3 |
| agricultural | 3 |
| compositae | 3 |
| countries | 3 |
| growth respiration | 3 |
| advantage | 3 |
| protection | 3 |
| similar compounds | 3 |
| swamps | 3 |
| absent | 3 |
| schuepp | 3 |
| project | 3 |
| visitors | 3 |
| 350 | 3 |
| atmospheric | 3 |
| error | 3 |
| common name | 3 |
| umbel | 3 |
| 700 | 3 |
| interests | 3 |
| other insects | 3 |
| number of authors | 3 |
| c4 plants | 3 |
| ipp | 3 |
| concept | 3 |
| root system | 3 |
| muthuri et al. | 3 |
| ozone concentration | 3 |
| 600 | 3 |
| canopy model | 3 |
| common names | 3 |
| araceae | 3 |
| proportion | 3 |
| click | 3 |
| group of alkaloids | 3 |
| umbelliferae | 3 |
| groups of plants | 3 |
| regulation | 3 |
| interaction | 3 |
| air temperature | 3 |
| threshold flux | 3 |
| major precursor | 3 |
| evolution | 3 |
| unit | 3 |
| later date | 3 |
| four | 3 |
| period | 3 |
| rearrangements | 3 |
| language | 3 |
| copyright | 3 |
| mechanistic understanding | 3 |
| canopy microclimate | 3 |
| woodward | 3 |
| cv | 3 |
| ubiquitous | 3 |
| gramineae | 3 |
| general use | 3 |
| today | 3 |
| f. | 3 |
| night | 3 |
| monthly mean | 3 |
| line | 3 |
| artifact | 3 |
| society | 3 |
| stable | 3 |
| sex | 3 |
| other compounds | 3 |
| other alkaloids | 3 |
| eddy covariance | 3 |
| soil water potential | 3 |
| ranunculaceae | 3 |
| degree | 3 |
| space | 3 |
| habitats | 3 |
| experimental | 3 |
| figure 20 | 3 |
| tryptophan | 3 |
| drainage | 3 |
| baker | 3 |
| heath | 3 |
| g. | 3 |
| dna synthesis | 3 |
| arginine | 3 |
| applications | 3 |
| lichens | 3 |
| pyrophosphate | 3 |
| grace | 3 |
| 1957 | 3 |
| eds | 3 |
| atmospheric chemistry | 3 |
| maintained | 3 |
| member | 3 |
| 95 | 3 |
| coefficient | 3 |
| carcinogenic | 3 |
| corresponding | 3 |
| biochemistry | 3 |
| cheney | 3 |
| model system | 3 |
| is | 3 |
| pregnenolone | 3 |
| elsevier | 3 |
| momentum | 3 |
| sharkey | 3 |
| variables | 3 |
| berry | 3 |
| magnoliaceae | 3 |
| wind | 3 |
| purpose | 3 |
| efficiency | 3 |
| miller | 3 |
| judd et al. | 3 |
| exceptions | 3 |
| mckee | 3 |
| orientation | 3 |
| limitations | 3 |
| 1954 | 3 |
| zea mays | 3 |
| wrong | 3 |
| measured data | 3 |
| detritus respiration | 3 |
| ozone effects | 3 |
| many species | 3 |
| conversion | 3 |
| larvae | 3 |
| radiation | 3 |
| sinks | 3 |
| someone | 3 |
| malcolm l. sargent | 3 |
| africa | 3 |
| molecular plant biology | 3 |
| scales | 3 |
| c4 photosynthesis | 3 |
| direction | 3 |
| conservation | 3 |
| rules | 3 |
| short | 3 |
| kaye | 3 |
| valid | 3 |
| synomones | 3 |
| ozone exposure | 3 |
| uncommon | 3 |
| scores | 3 |
| diverse | 3 |
| third | 3 |
| second objective | 3 |
| accumulation | 3 |
| 100 alkaloids | 3 |
| 1960 | 3 |
| progress | 3 |
| phytotoxins | 3 |
| cyperus papyrus l. | 3 |
| early | 3 |
| temperature sensitive | 3 |
| mind | 3 |
| specific | 3 |
| flowering plants | 3 |
| century model | 3 |
| reason | 3 |
| two groups | 3 |
| images | 3 |
| level | 3 |
| chloroplast | 3 |
| make | 3 |
| 12 | 3 |
| putrescine | 3 |
| column | 3 |
| molecular | 3 |
| s.p. | 3 |
| other animals | 3 |
| jordan | 3 |
| tleaf | 3 |
| worth | 3 |
| tropical | 3 |
| emission | 3 |
| values of model parameters | 3 |
| rh | 3 |
| estimates | 3 |
| crop production | 3 |
| native | 3 |
| penman | 3 |
| doe | 3 |
| rainfall | 3 |
| leaf expansion | 3 |
| factors | 3 |
| ecosystem models | 3 |
| celastraceae | 3 |
| darwin | 3 |
| pollination | 3 |
| cycle | 3 |
| high temperature | 3 |
| collatz | 3 |
| identification | 3 |
| sesquiterpenes | 3 |
| assignments | 3 |
| culms | 3 |
| j.m.o. scurlock | 3 |
| 1969 | 3 |
| request | 3 |
| soil surface | 3 |
| primary production | 3 |
| acids | 3 |
| findings | 3 |
| jarvis | 3 |
| plant material | 3 |
| categories | 3 |
| zero values | 3 |
| term | 3 |
| simple approach | 3 |
| vc | 3 |
| italics | 3 |
| transport | 3 |
| senescence | 3 |
| questionable | 3 |
| ta | 3 |
| p.42 | 3 |
| rates of photosynthesis | 3 |
| exponential decline | 3 |
| quizzes | 3 |
| vpd | 3 |
| acetylcholine | 3 |
| sure | 3 |
| communities | 3 |
| base temperature | 3 |
| julian day | 3 |
| leaf nitrogen concentration | 3 |
| weather | 3 |
| primary productivity | 3 |
| mammals | 3 |
| high | 3 |
| linke | 3 |
| l. | 3 |
| required | 3 |
| canopy respiration | 3 |
| s.p. long | 3 |
| transfer | 3 |
| preparation | 3 |
| secondary growth | 3 |
| derive | 3 |
| grasses | 3 |
| balance | 3 |
| limitation | 3 |
| other factors | 3 |
| outline | 3 |
| photosynthetic capacity | 3 |
| australia | 3 |
| fourth | 3 |
| feedback effects | 3 |
| poisoning | 3 |
| soil temperature | 3 |
| uncertainty | 3 |
| gross assimilation | 3 |
| carbon dioxide concentrations | 3 |
| years | 3 |
| discussion | 3 |
| 80 | 3 |
| parentheses | 3 |
| state variables | 3 |
| contents | 3 |
| applicants | 3 |
| good | 3 |
| south america | 3 |
| first step | 3 |
| maintenance respiration | 3 |
| aldehydes | 3 |
| acetate | 3 |
| appendix i | 3 |
| porg | 3 |
| presence | 3 |
| rain | 3 |
| calculation | 3 |
| number of alkaloids | 3 |
| immediate family | 3 |
| 2001 | 3 |
| reiling | 3 |
| ecology | 3 |
| mevalonic acid | 3 |
| fo3 | 3 |
| pyruvate | 3 |
| decarboxylation | 3 |
| known | 3 |
| 1998 wimovac ltd. last | 3 |
| global change | 3 |
| taxonomic hierarchy | 3 |
| sites | 3 |
| equipment | 3 |
| malonate | 3 |
| 1810 | 3 |
| lignin | 3 |
| real | 3 |
| layers | 3 |
| atmospheric co2 concentration | 3 |
| o2 | 3 |
| laboratory | 3 |
| model parameters | 3 |
| same species | 3 |
| light intensity | 3 |
| clicking | 3 |
| irrigation | 3 |
| macroclimate module | 3 |
| second reason | 3 |
| chung | 3 |
| parton | 3 |
