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W2560199405 startingPage "382" @default.
W2560199405 abstract "Summary Freshwater ecosystems appear to be sensitive to even minor climatic shifts, and the dendritic nature of rivers as well as patchy distribution of habitats within the terrestrial landscape could limit the ability of species to track suitable climate conditions. Although the importance of dispersal is recognised in theory, there is great uncertainty when quantifying the capacity of species to shift their distributions in response to climate change. The influence of dispersal capacity on species’ vulnerability to climate change was assessed, using the modelled projections of 527 freshwater species in New South Wales (NSW), Australia. Species’ future ranges were calculated by iteratively identifying colonisation of accessible habitats and loss of suitable habitats within network models. The accessibility of new habitats was based on a given dispersal mode (aquatic, semi‐terrestrial and aerial). The relative impact of dispersal parameters on projected range were evaluated alongside other known sources of uncertainty (climate and emissions scenarios, modelling algorithm and biological group), analysed collectively in a generalised additive mixed‐model, and spatially to locate regions of NSW where projections are associated with the most uncertainty. Our simulations (1.4 million scenario combinations) suggest at least a third of species will lose more than half their range under climate change. Nevertheless, we emphasise the broad uncertainty that any average encapsulates. Dispersal capacity only had a minor impact on projected range shifts relative to other modelling assumptions but the network‐pathways and maps of uncertainty have value for conservation planning at large scales. Projected range losses initially decreased rapidly as dispersal rates increased but the benefits are reduced above 2–3 km year −1 . Taxa restricted to dispersal within the stream network (aquatic) were more vulnerable to climate change than taxa with semi‐terrestrial or aerial dispersal and maps of variation due to dispersal mode and rate indicate where habitat connectivity would be most beneficial. This study demonstrates the breadth of uncertainties that challenge plans for improving ecosystem adaptation under climate change and highlights where in the landscape those differences were consistent. We emphasise the need for freshwater conservation studies to be ecologically representative, to focus on broad‐scale connectivity for taxa that can move between catchments, and an accessible network of refugia for taxa with more limited dispersal." @default.
W2560199405 created "2016-12-16" @default.
W2560199405 creator A5016878374 @default.
W2560199405 creator A5040749631 @default.
W2560199405 date "2016-12-05" @default.
W2560199405 modified "2023-10-05" @default.
W2560199405 title "Does dispersal capacity matter for freshwater biodiversity under climate change?" @default.
W2560199405 cites W101492391 @default.
W2560199405 cites W1504194060 @default.
W2560199405 cites W1512870236 @default.
W2560199405 cites W1526319989 @default.
W2560199405 cites W1541774929 @default.
W2560199405 cites W1568201516 @default.
W2560199405 cites W1635872754 @default.
W2560199405 cites W1708726409 @default.
W2560199405 cites W1785222332 @default.
W2560199405 cites W1955537311 @default.
W2560199405 cites W1973828103 @default.
W2560199405 cites W1980807912 @default.
W2560199405 cites W1981419118 @default.
W2560199405 cites W1981709682 @default.
W2560199405 cites W1990731135 @default.
W2560199405 cites W1991308688 @default.
W2560199405 cites W1993440575 @default.
W2560199405 cites W1993885902 @default.
W2560199405 cites W1997508941 @default.
W2560199405 cites W2002758482 @default.
W2560199405 cites W2007998030 @default.
W2560199405 cites W2009499611 @default.
W2560199405 cites W2015053255 @default.
W2560199405 cites W2019655958 @default.
W2560199405 cites W2019687206 @default.
W2560199405 cites W2030448128 @default.
W2560199405 cites W2038561408 @default.
W2560199405 cites W2039090846 @default.
W2560199405 cites W2041578869 @default.
W2560199405 cites W2041806700 @default.
W2560199405 cites W2043446899 @default.
W2560199405 cites W2048202602 @default.
W2560199405 cites W2048217677 @default.
W2560199405 cites W2051628170 @default.
W2560199405 cites W2066924465 @default.
W2560199405 cites W2070750558 @default.
W2560199405 cites W2073145164 @default.
W2560199405 cites W2077173553 @default.
W2560199405 cites W2080129584 @default.
W2560199405 cites W2087015175 @default.
W2560199405 cites W2098505985 @default.
W2560199405 cites W2100145109 @default.
W2560199405 cites W2100533358 @default.
W2560199405 cites W2105783629 @default.
W2560199405 cites W2107140090 @default.
W2560199405 cites W2107695795 @default.
W2560199405 cites W2110030420 @default.
W2560199405 cites W2110218838 @default.
W2560199405 cites W2111890968 @default.
W2560199405 cites W2112315008 @default.
W2560199405 cites W2113735143 @default.
W2560199405 cites W2113790713 @default.
W2560199405 cites W2114969667 @default.
W2560199405 cites W2119830727 @default.
W2560199405 cites W2120471548 @default.
W2560199405 cites W2121621290 @default.
W2560199405 cites W2124138399 @default.
W2560199405 cites W2128827287 @default.
W2560199405 cites W2129777921 @default.
W2560199405 cites W2131086800 @default.
W2560199405 cites W2135725459 @default.
W2560199405 cites W2138552046 @default.
W2560199405 cites W2139304079 @default.
W2560199405 cites W2142698711 @default.
W2560199405 cites W2146484963 @default.
W2560199405 cites W2149207211 @default.
W2560199405 cites W2149329191 @default.
W2560199405 cites W2151523583 @default.
W2560199405 cites W2152854300 @default.
W2560199405 cites W2153700801 @default.
W2560199405 cites W2154076305 @default.
W2560199405 cites W2156256438 @default.
W2560199405 cites W2161759346 @default.
W2560199405 cites W2162467623 @default.
W2560199405 cites W2163486204 @default.
W2560199405 cites W2163833366 @default.
W2560199405 cites W2164007073 @default.
W2560199405 cites W2165019853 @default.
W2560199405 cites W2191830867 @default.
W2560199405 cites W2322668297 @default.
W2560199405 cites W2782174919 @default.
W2560199405 cites W4254826644 @default.
W2560199405 doi "https://doi.org/10.1111/fwb.12874" @default.
W2560199405 hasPublicationYear "2016" @default.
W2560199405 type Work @default.
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