Adjusting the lens of invasion biology to focus on the impacts of climate-driven range shifts

被引:0
|
作者
Piper D. Wallingford
Toni Lyn Morelli
Jenica M. Allen
Evelyn M. Beaury
Dana M. Blumenthal
Bethany A. Bradley
Jeffrey S. Dukes
Regan Early
Emily J. Fusco
Deborah E. Goldberg
Inés Ibáñez
Brittany B. Laginhas
Montserrat Vilà
Cascade J. B. Sorte
机构
[1] University of California,Department of Ecology and Evolutionary Biology
[2] Irvine,Northeast Climate Adaptation Science Center
[3] US Geological Survey,Department of Environmental Conservation
[4] University of Massachusetts,Organismic and Evolutionary Biology
[5] University of Massachusetts,Department of Natural Resources and the Environment
[6] University of New Hampshire,Miller Worley Center for the Environment
[7] Mount Holyoke College,USDA Agricultural Research Service
[8] Rangeland Resources & Systems Research Unit,Department of Forestry and Natural Resources
[9] Purdue University,Department of Biological Sciences
[10] Purdue University,Department of Ecology and Evolutionary Biology
[11] Centre for Ecology and Conservation,School for Environment and Sustainability
[12] Penryn Campus,Department of Plant Biology and Ecology
[13] University of Exeter,undefined
[14] University of Michigan,undefined
[15] University of Michigan,undefined
[16] Estación Biológica de Doñana–Consejo Superior de Investigaciones Científicas (EBD–CSIC),undefined
[17] University of Sevilla,undefined
来源
Nature Climate Change | 2020年 / 10卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
As Earth’s climate rapidly changes, species range shifts are considered key to species persistence. However, some range-shifting species will alter community structure and ecosystem processes. By adapting existing invasion risk assessment frameworks, we can identify characteristics shared with high-impact introductions and thus predict potential impacts. There are fundamental differences between introduced and range-shifting species, primarily shared evolutionary histories between range shifters and their new community. Nevertheless, impacts can occur via analogous mechanisms, such as wide dispersal, community disturbance and low biotic resistance. As ranges shift in response to climate change, we have an opportunity to develop plans to facilitate advantageous movements and limit those that are problematic.
引用
收藏
页码:398 / 405
页数:7
相关论文
共 50 条
  • [31] Simulating the Interacting Effects of Intraspecific Variation, Disturbance, and Competition on Climate-Driven Range Shifts in Trees
    Moran, Emily V.
    Ormond, Rhys A.
    PLOS ONE, 2015, 10 (11):
  • [32] Climate-Driven Range Shifts Within Benthic Habitats Across a Marine Biogeographic Transition Zone
    Mieszkowska, N.
    Sugden, H. E.
    ADVANCES IN ECOLOGICAL RESEARCH, VOL 55: LARGE-SCALE ECOLOGY: MODEL SYSTEMS TO GLOBAL PERSPECTIVES, 2016, 55 : 325 - 369
  • [33] Climate-driven impacts of exotic species on marine ecosystems
    Bennett, Scott
    Santana-Garcon, Julia
    Marba, Nuria
    Jorda, Gabriel
    Anton, Andrea
    Apostolaki, Eugenia T.
    Cebrian, Just
    Geraldi, Nathan R.
    Krause-Jensen, Dorte
    Lovelock, Catherine E.
    Martinetto, Paulina
    Pandolfi, John M.
    Duarte, Carlos M.
    GLOBAL ECOLOGY AND BIOGEOGRAPHY, 2021, 30 (05): : 1043 - 1055
  • [34] Lagged climate-driven range shifts at species' leading, but not trailing, range edges revealed by multispecies seed addition experiment
    Goodwin, Katie J. A.
    Chardon, Nathalie I.
    Pradhan, Kavya
    Lambers, Janneke Hille Ris
    Angert, Amy L.
    ECOGRAPHY, 2025,
  • [35] A Holocene record of climate-driven shifts in coastal carbon sequestration
    Mitra, Siddhartha
    Zimmerman, Andrew R.
    Hunsinger, Glendon B.
    Willard, Debra
    Dunn, Joshua C.
    GEOPHYSICAL RESEARCH LETTERS, 2009, 36
  • [36] Identifying potential evolutionary consequences of climate-driven phenological shifts
    Heard, Matthew J.
    Riskin, Shelby H.
    Flight, Patrick A.
    EVOLUTIONARY ECOLOGY, 2012, 26 (03) : 465 - 473
  • [37] Identifying potential evolutionary consequences of climate-driven phenological shifts
    Matthew J. Heard
    Shelby H. Riskin
    Patrick A. Flight
    Evolutionary Ecology, 2012, 26 : 465 - 473
  • [38] Forecasting the consequences of climate-driven shifts in human behavior on cetaceans
    Alter, S. Elizabeth
    Simmonds, Mark P.
    Brandon, John R.
    MARINE POLICY, 2010, 34 (05) : 943 - 954
  • [39] Qualitative assessment of climate-driven ecological shifts in the Caspian Sea
    Kashkooli, Omid Beyraghdar
    Groeger, Joachim
    Nunez-Riboni, Ismael
    PLOS ONE, 2017, 12 (05):
  • [40] Climate-driven phenological shifts in emergence dates of British bees
    Wyver, Chris
    Potts, Simon G.
    Edwards, Mike
    Edwards, Rowan
    Roberts, Stuart
    Senapathi, Deepa
    ECOLOGY AND EVOLUTION, 2023, 13 (07):
12345