2019
DOI: 10.1002/ece3.5933
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High‐resolution distribution modeling of a threatened short‐range endemic plant informed by edaphic factors

Abstract: Short‐range endemic plants often have edaphic specializations that, with their restricted distributions, expose them to increased risk of anthropogenic extinction. Here, we present a modeling approach to understand habitat suitability for Ricinocarpos brevis R.J.F.Hend. & Mollemans (Euphorbiaceae), a threatened shrub confined to three isolated populations in the semi‐arid south‐west of Western Australia. The model is a maximum entropy species distribution projection constructed on the basis of physical soil ch… Show more

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Cited by 23 publications
(36 citation statements)
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“…By including soil, light availability and topography, plant biologists are able to better capture the full suite of conditions plants are experiencing (Austin 2007). This holistic approach has shaped plant research, including physiology (Bjorkman et al 2017), community ecology (Dearborn and Danby 2017) and distribution modeling (Tomlinson et al 2019, Clason et al 2020), to be more ecologically relevant (Austin and Niel 2011), and this framework also has improved researchers' approaches to understanding how plants will be impacted by climate change and their ability to shift their geographic ranges (Beauregard and Blois 2014). Some plants, such as trees, can tolerate a broad variety of soil conditions as adults, yet soil variation can impact dispersal success and seedling establishment, reducing their ability to track their thermal niche (Lafleur et al 2010).…”
Section: Improving Our Approach To Understand Climate Induced Range Smentioning
confidence: 99%
“…By including soil, light availability and topography, plant biologists are able to better capture the full suite of conditions plants are experiencing (Austin 2007). This holistic approach has shaped plant research, including physiology (Bjorkman et al 2017), community ecology (Dearborn and Danby 2017) and distribution modeling (Tomlinson et al 2019, Clason et al 2020), to be more ecologically relevant (Austin and Niel 2011), and this framework also has improved researchers' approaches to understanding how plants will be impacted by climate change and their ability to shift their geographic ranges (Beauregard and Blois 2014). Some plants, such as trees, can tolerate a broad variety of soil conditions as adults, yet soil variation can impact dispersal success and seedling establishment, reducing their ability to track their thermal niche (Lafleur et al 2010).…”
Section: Improving Our Approach To Understand Climate Induced Range Smentioning
confidence: 99%
“…Although elevation was among the significant predictors of species richness, species composition, and the proportion of calcifuge plant strategies and nutrient-acquisition strategies in both univariate and multivariate analyses, we assume elevation is likely a proxy for BIF in the Mid-West as previously proposed by Tomlinson et al (2020). The crests and ridges of BIF in the study site are <200 m higher in the landscape than surrounding topography, and elevational gradients in edaphic and vegetative parameters probably reflect the increasing incidence of the shallow, well-drained soil characteristic of BIF (Gibson et al, 2010), rather than altitudinal climatic shifts (Tomlinson et al, 2020).…”
Section: Patterns and Predictors Of Plant Strategiesmentioning
confidence: 85%
“…Although elevation was among the significant predictors of species richness, species composition, and the proportion of calcifuge plant strategies and nutrient-acquisition strategies in both univariate and multivariate analyses, we assume elevation is likely a proxy for BIF in the Mid-West as previously proposed by Tomlinson et al (2020). The crests and ridges of BIF in the study site are <200 m higher in the landscape than surrounding topography, and elevational gradients in edaphic and vegetative parameters probably reflect the increasing incidence of the shallow, well-drained soil characteristic of BIF (Gibson et al, 2010), rather than altitudinal climatic shifts (Tomlinson et al, 2020). The availability of soil moisture in the upper soil profile (200-1,000 mm) has been identified as a critical factor governing the occurrence of edaphic endemics on BIF (Tomlinson et al, 2020), and at least some BIF species likely rely upon water stored in cracks and fissures in bedrock, particularly during early seedling establishment (e.g., Poot & Lambers, 2003;Robinson et al, 2019;Tomlinson et al, 2020).…”
Section: Patterns and Predictors Of Plant Strategiesmentioning
confidence: 85%
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