Biological invasions in terrestrial Antarctica: what is the current status and can we respond?
about
Global thermal niche models of two European grasses show high invasion risks in Antarctica.High Resolution Spatial Mapping of Human Footprint across Antarctica and Its Implications for the Strategic Conservation of Avifauna.Climate change drives expansion of Antarctic ice-free habitat.Domestic carnivore interactions with wildlife in the Cape Horn Biosphere Reserve, Chile: husbandry and perceptions of impact from a community perspective.How much of the invader's genetic variability can slip between our fingers? A case study of secondary dispersal of Poa annua on King George Island (Antarctica).First step to eradication of Poa annua L. from Point Thomas Oasis (King George Island, South Shetlands, Antarctica)Breaking the ice: the introduction of biofouling organisms to Antarctica on vessel hullsAssessing the invasive risk of two non-native Agrostis species on sub-Antarctic Macquarie IslandSpectral Discrimination of Vegetation Classes in Ice-Free Areas of AntarcticaQuantifying the seed bank of an invasive grass in the sub-Antarctic: seed density, depth, persistence and viabilityPatterns of tourism in the Antarctic Peninsula region: a 20-year analysisAdaptive phenotypic plasticity and competitive ability deployed under a climate change scenario may promote the invasion of Poa annua in AntarcticaNon-native and native organisms moving into high elevation and high latitude ecosystems in an era of climate change: new challenges for ecology and conservationBarriers to globally invasive species are weakening across the Antarctic
P2860
Q36224368-2510442F-E0FD-4396-A4D0-C298313B7D92Q36248759-8BF19EAC-6066-4043-B926-5BAF07E8E13FQ46343366-38692483-DDF9-41A8-903D-5245729D1FB9Q47563541-A3D797FC-1F3D-47C1-AEB0-CAFD89EA7449Q48266162-95773223-C0E7-421D-BBC1-33EA83E9A136Q56333929-C70CF446-74CE-4FD2-88FD-206E6C9527C9Q56340372-4DEB7D05-279C-4B28-83CF-BD6C1EDFAC2EQ56376439-E36D247E-E3BF-4B3E-8B98-3F5F1D911B78Q56380435-349A35CC-0CA5-4A63-A370-BD72607BDF61Q56388918-70CB1FFA-857C-4678-A497-C2C613C0B9E8Q56395742-9FDDCB03-11E6-4B61-A805-D7EE47993B3CQ56418011-441A0DE2-0106-4E05-9961-101F4566F9A0Q56418774-3C4B08B1-3ED6-4C0F-833B-B940F8ED94D7Q57004312-FA84E9F4-B42C-4A0D-BF8C-A3C6A8EFF873
P2860
Biological invasions in terrestrial Antarctica: what is the current status and can we respond?
description
im März 2015 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 2015
@uk
name
Biological invasions in terres ...... ent status and can we respond?
@en
Biological invasions in terres ...... ent status and can we respond?
@nl
type
label
Biological invasions in terres ...... ent status and can we respond?
@en
Biological invasions in terres ...... ent status and can we respond?
@nl
prefLabel
Biological invasions in terres ...... ent status and can we respond?
@en
Biological invasions in terres ...... ent status and can we respond?
@nl
P2093
P2860
P1476
Biological invasions in terres ...... ent status and can we respond?
@en
P2093
Kevin A. Hughes
Marco A. Molina-Montenegro
Peter Convey
P2860
P2888
P304
P356
10.1007/S10531-015-0896-6
P577
2015-03-10T00:00:00Z