TY - JOUR
T1 - Potential of remote sensing to predict species invasions
T2 - A modelling perspective
AU - Rocchini, Duccio
AU - Andreo, Veronica
AU - Förster, Michael
AU - Garzon-Lopez, Carol Ximena
AU - Gutierrez, Andrew Paul
AU - Gillespie, Thomas W.
AU - Hauffe, Heidi C.
AU - He, Kate S.
AU - Kleinschmit, Birgit
AU - Mairota, Paola
AU - Marcantonio, Matteo
AU - Metz, Markus
AU - Nagendra, Harini
AU - Pareeth, Sajid
AU - Ponti, Luigi
AU - Ricotta, Carlo
AU - Rizzoli, Annapaola
AU - Schaab, Gertrud
AU - Zebisch, Marc
AU - Zorer, Roberto
AU - Neteler, Markus
N1 - Funding Information:
Duccio Rocchini and Carol Ximena Garzon-Lopez were partially funded by the EU BON (Building the European Biodiversity Observation Network) project, funded by the European Union under the 7th Framework programme, Contract No. 308454. Duccio Rocchini was also partially funded by the ERA-Net BiodivERsA, with the national funders ANR, BelSPO and DFG, part of the 2012-2013 BiodivERsA call for research proposals. Annapola Rizzoli, Markus Neteler and Markus Metz were partially funded by the Autonomous Province of Trento (Italy), Research funds for Grandi Progetti, Project LExEM (Laboratory of excellence for epidemiology and modelling, http://www.lexem.eu ). The PhD Scholarship of Sajid Pareeth and Matteo Marcantonio is supported by FIRS>T (FEM International Research School e Trentino).
Publisher Copyright:
© The Author(s) 2015
PY - 2015/6/4
Y1 - 2015/6/4
N2 - Understanding the causes and effects of species invasions is a priority in ecology and conservation biology. One of the crucial steps in evaluating the impact of invasive species is to map changes in their actual and potential distribution and relative abundance across a wide region over an appropriate time span. While direct and indirect remote sensing approaches have long been used to assess the invasion of plant species, the distribution of invasive animals is mainly based on indirect methods that rely on environmental proxies of conditions suitable for colonization by a particular species. The aim of this article is to review recent efforts in the predictive modelling of the spread of both plant and animal invasive species using remote sensing, and to stimulate debate on the potential use of remote sensing in biological invasion monitoring and forecasting. Specifically, the challenges and drawbacks of remote sensing techniques are discussed in relation to: i) developing species distribution models, and ii) studying life cycle changes and phenological variations. Finally, the paper addresses the open challenges and pitfalls of remote sensing for biological invasion studies including sensor characteristics, upscaling and downscaling in species distribution models, and uncertainty of results.
AB - Understanding the causes and effects of species invasions is a priority in ecology and conservation biology. One of the crucial steps in evaluating the impact of invasive species is to map changes in their actual and potential distribution and relative abundance across a wide region over an appropriate time span. While direct and indirect remote sensing approaches have long been used to assess the invasion of plant species, the distribution of invasive animals is mainly based on indirect methods that rely on environmental proxies of conditions suitable for colonization by a particular species. The aim of this article is to review recent efforts in the predictive modelling of the spread of both plant and animal invasive species using remote sensing, and to stimulate debate on the potential use of remote sensing in biological invasion monitoring and forecasting. Specifically, the challenges and drawbacks of remote sensing techniques are discussed in relation to: i) developing species distribution models, and ii) studying life cycle changes and phenological variations. Finally, the paper addresses the open challenges and pitfalls of remote sensing for biological invasion studies including sensor characteristics, upscaling and downscaling in species distribution models, and uncertainty of results.
KW - biological invasion
KW - ecological niche models
KW - physiologically-based demographic models
KW - satellite imagery
KW - species distribution modelling
KW - species diversity
KW - uncertainty
UR - http://www.scopus.com/inward/record.url?scp=84930394085&partnerID=8YFLogxK
U2 - 10.1177/0309133315574659
DO - 10.1177/0309133315574659
M3 - Article
SN - 1477-0296
VL - 39
SP - 283
EP - 309
JO - Progress in Physical Geography
JF - Progress in Physical Geography
IS - 3
ER -