Rapid shifts in distribution and high‐latitude persistence of oceanographic habitat revealed using citizen science data from a climate change hotspot

Rapid shifts in distribution and high‐latitude persistence of oceanographic habitat revealed using citizen science data from a climate change hotspot

The environmental effects of climate change are predicted to cause distribution shifts in many marine taxa, yet data are often difficult to collect. Quantifying and monitoring species’ suitable environmental habitats is a pragmatic approach for assessing changes in species distributions but is under...

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Bibliographic Details
Published in:Global change biology Vol. 24; no. 11; pp. 5440 - 5453
Main Authors: Champion, Curtis, Hobday, Alistair J., Tracey, Sean R., Pecl, Gretta T.
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-11-2018
Subjects:
Animal Distribution
Animals
Aquatic habitats
Australia
citizen science
Climate Change
Climate effects
Climate variability
Coastal ecology
Community Participation
Data
Data Collection
Ecological distribution
Ecological monitoring
Ecosystem
Environmental effects
Environmental monitoring
Fish
Geography
global change
Habitat preferences
Habitat selection
habitat suitability model
Habitats
Hot spots
Latitude
Marine systems
mixed‐effects modelling
Oceans and Seas
Pacific Ocean
Pelagic fish
Perciformes - physiology
Predictions
range shift
Remote sensing
Research Design
Seriola lalandi
Spatial distribution
Species
species distribution model
species redistribution
Temporal distribution
Australia
Pacific Ocean
mixed-effects modelling
global change
citizen science
species distribution model
species redistribution
Seriola lalandi
habitat suitability model
range shift
climate change
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Summary:The environmental effects of climate change are predicted to cause distribution shifts in many marine taxa, yet data are often difficult to collect. Quantifying and monitoring species’ suitable environmental habitats is a pragmatic approach for assessing changes in species distributions but is underdeveloped for quantifying climate change induced range shifts in marine systems. Specifically, habitat predictions present opportunities for quantifying spatiotemporal distribution changes while accounting for sources of natural climate variation. Here we demonstrate the utility of a marine‐based habitat model parameterized using citizen science data and remotely sensed environmental covariates for quantifying shifts in oceanographic habitat suitability over 22 years for a coastal‐pelagic fish species in a climate change hotspot. Our analyses account for the effects of natural intra‐ and interannual climate variability to reveal rapid poleward shifts in core (94.4 km/decade) and poleward edge (108.8 km/decade) oceanographic habitats. Temporal persistence of suitable oceanographic habitat at high latitudes also increased by approximately 3 months over the study period. Our approach demonstrates how marine citizen science data can be used to quantify range shifts, but necessitates shifting focus from species distributions directly, to the distribution of species’ environmental habitat preferences. The environmental effects of climate change are predicted to cause distribution shifts in many marine taxa, yet data required to analyse these shifts are often difficult to collect. In this study, we utilize increasingly available citizen science data to parametrize a habitat suitability model for a typical coastal‐pelagic species (kingfish; Seriola lalandi) within a global marine hotspot. We then demonstrate the utility of spatial habitat predictions for quantifying climate‐driven distribution shifts while accounting for oft‐ignored intra‐ and interannual climate variability. Our approach highlights the value of marine citizen science data for quantifying range shifts, but necessitates shifting focus from species distributions directly, to the distribution of species’ environmental habitat preferences.
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ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.14398