Responses of large mammals to climate change

Citations Over TimeTop 10% of 2014 papers

Abstract

Most large terrestrial mammals, including the charismatic species so important for ecotourism, do not have the luxury of rapid micro-evolution or sufficient range shifts as strategies for adjusting to climate change. The rate of climate change is too fast for genetic adaptation to occur in mammals with longevities of decades, typical of large mammals, and landscape fragmentation and population by humans too widespread to allow spontaneous range shifts of large mammals, leaving only the expression of latent phenotypic plasticity to counter effects of climate change. The expression of phenotypic plasticity includes anatomical variation within the same species, changes in phenology, and employment of intrinsic physiological and behavioral capacity that can buffer an animal against the effects of climate change. Whether that buffer will be realized is unknown, because little is known about the efficacy of the expression of plasticity, particularly for large mammals. Future research in climate change biology requires measurement of physiological characteristics of many identified free-living individual animals for long periods, probably decades, to allow us to detect whether expression of phenotypic plasticity will be sufficient to cope with climate change.

Related Papers

• → Differences in Phenotypic Plasticity between Invasive and Native Plants Responding to Three Environmental Factors(2022)12 cited
• → Phenotypic plasticity closely linked to climate at origin and resulting in increased mortality under warming and frost stress in a common grass(2019)34 cited
• → Introduction to climate change adaptation(2022)6 cited
• On evaluation of adaptation engines(2007)
• → INNOVATIVE APPROACHES TO THE PROBLEM OF SOCIAL ADAPTATION OF FIRST-YEAR STUDENTS(2018)