g., bleaching events for coral reefs—Berkelmans et al. 2004; drought-related mortality of Pinus edulis in the southwestern United States—Breshears et al. 2005). Because the probability, speed, type, and extent of these changes is unlikely to be uniform across a region, a relatively RG7112 ic50 straight forward and intuitive approach to adaptation in regional conservation plans is to focus on identifying and protecting biodiversity in those areas least likely to undergo rapid climate-induced changes. Such places may serve as important climate refugia for species and habitats that become marginalized SCH727965 through ecological changes elsewhere. Climate refugia can exist both in places where changes in climate are
attenuated (e.g., Saxon 2008), or where biodiversity is likely to be particularly robust to changes in climate, perhaps due to a broad climate tolerance (e.g., West and Salm 2003). For example, as part of a national conservation plan for Papua New Guinea (PNG), Game et al. (2011) identified climate refugia based on projected changes in seven climate dependent
variables (potential evapotranspiration, precipitation/potential evapotranspiration, precipitation of the coldest quarter of the year, precipitation of the warmest quarter of the year, mean temperature of the coldest quarter of the year, mean temperature of the warmest quarter of the year, and average monthly temperature) (Fig. 2). The current value for these variables in 5-km pixels was compared with their projected value in the year 2100, and the expected change normalised with the value 1 being assigned to the pixel expected to experience Saracatinib chemical structure the greatest climatic change across PNG. Fig. 2 Projected severity of climate change for Papua New Guinea, normalized to a scale from 0 (less change expected) to 1 (more change expected) and summarized by 5000 ha planning units. This data layer was developed using methods described in Saxon et al. (2005) and was then used in a decision support system (Marxan) to identify climate refugia as part of a broader regional conservation assessment for the Papua New Guinea government There are multiple ways to define refugia from climate
change, and different definitions require different methods of identification and data inputs. Ashcroft (2010) recommends find more that discussions of refugia explicitly distinguish between macrorefugia and microrefugia (i.e., the scale at which refugia are being identified, and therefore what resolution climate data are necessary or appropriate), in situ and ex situ refugia (whether refugia from future climate change are likely to be located within or outside of a species’ current distribution), and refugia based on climatic versus habitat stability. The issue of scale is particularly important as it has been shown to influence patterns of species richness and species turnover, particularly as they relate to changes along environmental gradients (Jetz and Rahbeck 2002).