about
The hydroclimatic and ecophysiological basis of cloud forest distributions under current and projected climatesInteractions of climate change with biological invasions and land use in the Hawaiian Islands: Modeling the fate of endemic birds using a geographic information systemMoisture status during a strong El Niño explains a tropical montane cloud forest's upper limit.Modeling Hawaiian ecosystem degradation due to invasive plants under current and future climates.Physiological effects of heat stress on Hawaiian picture-wing Drosophila: genome-wide expression patterns and stress-related traits.Mapping the montane cloud forest of Taiwan using 12 year MODIS-derived ground fog frequency data.Will climate change, genetic and demographic variation or rat predation pose the greatest risk for persistence of an altitudinally distributed island endemic?Asynchronous response of tropical forest leaf phenology to seasonal and el Niño-driven drought.Vulnerability to xylem embolism as a major correlate of the environmental distribution of rain forest species on a tropical island.Episodic Canopy Structural Transformations and Biological Invasion in a Hawaiian Forest.Water relations and microclimate around the upper limit of a cloud forest in Maui, Hawai'i.Potential effects of climate change on members of the Palaeotropical pitcher plant family Nepenthaceae.Elevational distribution and photosynthetic characteristics of the invasive tree Spathodea campanulata on the island of Tahiti (South Pacific Ocean)Human impacts reduce morphological diversity in an insular species of lizard.Landslides, Alien Species, and the Diversity of a Hawaiian Montane Mesic Ecosystem1Towards integrated ecological research in tropical montane cloud forestsThe importance of novel and hybrid habitats for plant conservation on islands: a case study from Moorea (South Pacific)Diffuse competition can be reversed: a case history with birds in HawaiiModeling the impacts of global warming on predation and biotic resistance: mosquitoes, damselflies and avian malaria in HawaiiLong-Term Persistence of Hawaii's Endangered Avifauna through Conservation-Reliant ManagementRainfall partitioning and cloud water interception in native forest and invaded forest in Hawai'i Volcanoes National ParkThe role of bioclimatic origin, residence time and habitat context in shaping non-native plant distributions along an altitudinal gradientAin't no mountain high enough: plant invasions reaching new elevationsLeaf and floral heating in cold climates: do sub-Antarctic megaherbs resemble tropical alpine giants?Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future researchHydrometeorology of tropical montane cloud forests: emerging patternsConservation genetics and ecology of an endemic montane palm on Lord Howe Island and its potential for resilienceSpatial trend analysis of Hawaiian rainfall from 1920 to 2012Change in trade wind inversion frequency implicated in the decline of an alpine plantLand Use and Water Resources under a Changing Climate
P2860
Q26823610-CD2B6F83-258C-49AE-ABF0-429DE1B169F7Q30738164-B1B844A1-D03C-48FB-BCC3-29BCDA72E428Q30745236-3799B62A-FCB2-452F-8853-CAD82188515DQ30815735-FB7823F0-AE30-49D5-96FC-AD7D54D7F18CQ31107639-9AE61407-3609-44BD-A057-F415475C5CE5Q31168089-685E37BC-8D3F-4B00-82E5-4B297FE2E134Q33565303-65331872-85A8-4313-A71B-0C67249A4D11Q33622488-70C547E6-5A7B-4132-9598-CFEC5E0724D3Q36197807-6E61404C-9043-47C2-B1DF-BE687F1BAAC7Q38635907-AA5F301B-8315-4409-BC80-B00CA99A6CEBQ39029790-18E17C25-C2B2-41FE-BC2F-32D7711DA78AQ39031681-BBF7EE49-E2B3-4C39-A417-4F41D56FF319Q51146036-DB710B8F-E8E8-4285-BAB7-CC87FCB0C894Q51837770-56FB1D03-627D-4867-BAFE-373759A27C56Q55842450-3E5AD194-AE89-4244-889F-D5FA913DC317Q56383685-29ADDCE5-53BB-41AB-B8A6-C71152CB7FA9Q56441660-C6EA2CC0-9E27-4ED1-A56F-3175B5176EB0Q56446627-C8826B2B-CE0C-4B2C-8C22-70AE5727A44BQ56520368-991B6BD2-B73C-4F2F-BC31-8CE655B4BEF2Q56543178-9E68DED4-1FDE-4971-AF89-BF072A322A8FQ56764412-C1B78ABE-056F-46FC-99C5-62E1DD8B1F89Q56765600-296AEF1B-253B-4D97-9172-7AB226093953Q56770082-B902A3C5-814D-4340-9DF2-3563D978FEE4Q56974615-D1A5661C-8615-4C6B-B8A1-6BCE4E363FECQ57012867-7FA52EEC-4461-4064-809B-10A67CB8E8AFQ57267645-630704F8-0B8A-4101-952A-C7372AC30E71Q57529266-EFC3D565-FCEB-4C3C-9002-EDB27EF5F4AEQ58256811-49671D32-1274-4D91-957C-DD2BFE58C6D2Q58256817-05F76AFD-F51A-423B-BAF8-7C2605542A90Q58256990-15DE7EF8-F52B-4715-A687-1E38830812F0
P2860
description
im Januar 1998 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в 1998
@uk
type
P356
P1433
P2093
Lloyd L. Loope
Thomas W. Giambelluca
P2888
P304
P356
10.1023/A:1005372118420
P577
1998-01-01T00:00:00Z
P6179
1025676272