about
sameAs
A jungle in there: bacteria in belly buttons are highly diverse, but predictableAnts sow the seeds of global diversification in flowering plantsMoving forward in global-change ecology: capitalizing on natural variabilitySnowpack, fire, and forest disturbance: interactions affect montane invasions by non-native shrubs.Climatic controls on ecosystem resilience: Postfire regeneration in the Cape Floristic Region of South AfricaNeutral ecological theory reveals isolation and rapid speciation in a biodiversity hot spot.Hierarchical models facilitate spatial analysis of large data sets: a case study on invasive plant species in the northeastern United States.Experimental biogeography: the role of environmental gradients in high geographic diversity in Cape Proteaceae.Data-model fusion to better understand emerging pathogens and improve infectious disease forecasting.Can entropy maximization use functional traits to explain species abundances? A comprehensive evaluation.Quantifying how fine-grained environmental heterogeneity and genetic variation affect demography in an annual plant population.Monitoring plant functional diversity from space.Transcriptome sequencing reveals population differentiation in gene expression linked to functional traits and environmental gradients in the South African shrub Protea repens.Microsatellite primers in the white proteas (Protea section Exsertae, Proteaceae), a rapidly radiating lineage.Building statistical models to analyze species distributions.Long-term climate and competition explain forest mortality patterns under extreme drought.Comparative performance of invasive and native Celastrus species across environmental gradients.Mechanical reproductive isolation facilitates parallel speciation in western North American scincid lizards.Geography and resource limitation complicate metabolism-based predictions of species richness.Fifteen woody species with potential for invasiveness in New EnglandExplaining species distribution patterns through hierarchical modelingRejoinderModelling species diversity through species level hierarchical modellingTowards connecting biodiversity and geodiversity across scales with satellite remote sensing.Local forest structure variability increases resilience to wildfire in dry western U.S. coniferous forests
P50
Q21090853-17EB443F-869A-4A6D-B655-B1FF3A8AC802Q21091203-40A3917F-F5D5-4E57-A873-2DB523CAC669Q30588458-81030941-4A1F-42FE-9D9D-34B08E8CE169Q30875313-B2C5DEBA-3A6E-4297-98B1-03D8D722B529Q30979004-60CA9B62-D087-4BDC-A84A-0D4DB2AB7AE2Q33223022-F1B752D4-214D-45FD-8104-B982F0093DB2Q33399901-DA3D5BB8-9E4C-4FC7-B726-142C706A4AC4Q33405782-9729B467-F1E2-400E-A8B3-934A99B41586Q33989146-9C875BC4-9B14-438D-B931-2DF343D5B95AQ34003680-30478516-160E-4980-A3A2-EFF41CE66C77Q34307262-CD9A9891-2D37-4014-BB48-0C6B89854AA1Q36036409-1E5112B3-2AEB-4B0B-AD7A-F800660155E6Q38454156-21E91964-2C56-4559-8C9B-65D1978F369FQ39914849-3F886D19-15A3-4BA4-853F-0653CC70E9A8Q46355031-D80658D0-1078-4318-9FB3-0CA42C637947Q46442353-AE399E4E-B562-4301-9CE1-8EFC82603056Q51185144-BBA31FB7-1550-45DB-B84F-285DE57CF82AQ51427881-07CFF4EA-FC13-4361-B301-64FD441C5AF4Q51702762-6DE4E071-E22A-4BB8-BC61-9B0ADC7FB99FQ56994840-4945F878-B26E-4F51-9E8F-7897BF8A5A2AQ56994848-8A6A2A0A-97AC-4FAA-ADFC-0A244D1F6402Q56994854-3F1F2E00-3947-449F-BF55-EF7A08870809Q56994860-00560A35-E518-49B9-9554-2C670F33CD58Q64974053-965C08AB-C980-4138-B517-DDF2C2CC16C2Q92546564-9D532BB9-B65E-48A7-9562-7336889A9880
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Andrew M Latimer
@ast
Andrew M Latimer
@en
Andrew M Latimer
@es
Andrew M Latimer
@nl
Andrew M Latimer
@sl
type
label
Andrew M Latimer
@ast
Andrew M Latimer
@en
Andrew M Latimer
@es
Andrew M Latimer
@nl
Andrew M Latimer
@sl
prefLabel
Andrew M Latimer
@ast
Andrew M Latimer
@en
Andrew M Latimer
@es
Andrew M Latimer
@nl
Andrew M Latimer
@sl
P106
P21
P31
P496
0000-0001-8098-0448