Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
about
Biotic and human vulnerability to projected changes in ocean biogeochemistry over the 21st centuryRates of molecular evolution and diversification in plants: chloroplast substitution rates correlate with species-richness in the ProteaceaeWhy are there so many insect species? Perspectives from fossils and phylogeniesKinetic effects of temperature on rates of genetic divergence and speciationThe rate of DNA evolution: effects of body size and temperature on the molecular clockEcology drives the worldwide distribution of human diseasesEcology's big, hot ideaTargeted capture and resequencing of 1040 genes reveal environmentally driven functional variation in grey wolvesEnergy, range dynamics and global species richness patterns: reconciling mid-domain effects and environmental determinants of avian diversityPredicting continental-scale patterns of bird species richness with spatially explicit modelsPredictors of elevational biodiversity gradients change from single taxa to the multi-taxa community levelTranscriptome sequencing reveals genome-wide variation in molecular evolutionary rate among fernsDiel Surface Temperature Range Scales with Lake SizeMinimal effects of latitude on present-day speciation rates in New World birdsWhy are there so many species in the tropics?Explaining bathymetric diversity patterns in marine benthic invertebrates and demersal fishes: physiological contributions to adaptation of life at depthThe latitudinal species richness gradient in New World woody angiosperms is consistent with the tropical conservatism hypothesisMolecular evolution and the latitudinal biodiversity gradientHuman-induced marine ecological degradation: micropaleontological perspectivesEnergetics of life on the deep seafloorCenozoic imprints on the phylogenetic structure of palm species assemblages worldwideSpecies-energy relationships in deep-sea molluscsCan unified theories of biodiversity explain mammalian macroecological patterns?Genome-wide identification of susceptibility alleles for viral infections through a population genetics approachGlobal latitudinal variations in marine copepod diversity and environmental factorsTemporal latitudinal-gradient dynamics and tropical instability of deep-sea species diversityPhysiological Diversity in Insects: Ecological and Evolutionary ContextsEnvironmental and historical constraints on global patterns of amphibian richnessEnvironmental causes for plant biodiversity gradients.Environmental energy and evolutionary rates in flowering plantsClimate, energy and diversityMacrophysiology: large-scale patterns in physiological traits and their ecological implicationsEvolution and the latitudinal diversity gradient: speciation, extinction and biogeographyThe diversity and biogeography of soil bacterial communitiesRevealing patterns of local species richness along environmental gradients with a novel network toolA latitudinal diversity gradient in planktonic marine bacteriaTemperature dependence of trophic interactions are driven by asymmetry of species responses and foraging strategy.Global patterns in post-dispersal seed removal by invertebrates and vertebrates.A bioenergetic framework for the temperature dependence of trophic interactions.Interactions between temperature and nutrients across levels of ecological organization.
P2860
Q21092700-F8BE0CAC-BCF2-49F5-B32C-6EC78ECC1A92Q21284004-4BC27C81-E03E-4938-8292-63BF8C5BDEA7Q22065661-7DE38537-C4C8-4083-969E-E9A5F12092FBQ22066325-D7D989CB-E4EC-4695-9526-833D12A30E4DQ24557547-A3D70B0A-70AD-471B-B6FD-B54FB680D10BQ24792949-EE8A0DC9-AE47-4916-AA04-C80E5E62BCD8Q24802561-5E9158B3-E6C8-4C86-982F-4C40233916A9Q28269737-844ADF4B-3787-4D2D-B0AB-8B408FC5FB5BQ28274965-CC51A3DF-5A2C-456F-AAD3-9668BAB0C7D9Q28277354-BAFA1983-EE37-4682-9C8C-6C09EA0D3ED3Q28584613-02B7D8DA-7E66-4965-8BF1-0F56FF74BC82Q28596510-61FAA7F9-6272-4347-BE71-BB2E4FC1C8C2Q28601727-D8EB6144-D1CE-479A-AB27-DC3320B493D5Q28607032-134D26DE-DE6E-4246-BFB3-0C85EFF226DCQ28650341-7B6CF334-032C-4240-89B6-2B56B439F006Q28655926-E7C3DDE9-834C-48C2-9A1F-50EE69899387Q28658579-5001D48E-235B-4961-BB11-C8255B407B6FQ28703531-DD0DB392-1B1F-45BC-986C-CF9303A5BEFDQ28710068-31E8A744-728D-4F89-91B7-F5051E7EC14AQ28727464-AE13E48E-41C3-42A3-89A7-68A9AC9C05E4Q28729725-3890C084-AD45-4B36-BC3C-990A2AADBA09Q28740613-F2B0EFB3-EF32-4614-9979-BB652E45A2ABQ28742467-653F40A7-EBE1-48E8-B584-3D7663E6B724Q28748816-5C53D5E5-61F3-4A2E-86E5-C96A8AB0DCD4Q28749064-C637C535-AE64-4535-BD77-1A5EE11EAC18Q28749425-24758B80-BDCD-467F-B9FA-7EF5FFE3E765Q28755485-684BE385-5FED-4C57-AAD4-0D44A96B98F9Q28755999-A5DFACA8-BE48-4A7A-AAA9-B44BADF3EC8FQ28764839-5402D1D7-73DF-4056-83D7-544BF4B72E6CQ28765415-632459E4-FEBF-46D3-A1C6-4244536B6F86Q28766767-F229A4B7-8FC4-4543-BECB-5AEA3E5062AFQ29014398-6DEE3378-DDD4-4F88-9472-0ED7D733FE21Q29616781-7F9FCACD-9BEF-4237-A63D-E1A5E086C473Q29617328-42B53ED7-C4CC-4B62-B921-F4648F4C4F15Q30388395-4876AA64-6203-4426-BF00-C7B5F3FEF49AQ30482177-EB7D8F2C-A1DE-4F7E-B9D4-E4D643506634Q30630037-E51A39C4-3747-45EC-A4F5-5DDB5B673DC5Q30775254-14B06CD0-DBC3-40B6-8F8C-9B55D5F5945AQ30828749-0D959854-651C-448E-8BB0-507D656A099BQ30870042-58ACF805-F17A-4234-BE77-D71F50A930C3
P2860
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
description
2002 nî lūn-bûn
@nan
2002 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@ast
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@en
type
label
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@ast
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@en
prefLabel
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@ast
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@en
P356
P1433
P1476
Global biodiversity, biochemical kinetics, and the energetic-equivalence rule.
@en
P2093
James F Gillooly
James H Brown
P304
P356
10.1126/SCIENCE.1072380
P407
P577
2002-08-01T00:00:00Z