Interactions of climate and solar irradiance can reverse the bioclimatic response of poikilohydric species: An experimental test for Flavoparmelia caperata
RELATIVE GROWTH-RATES
; MONTANE RAIN-FOREST
; LICHEN CARBON GAIN
; CO2 EXCHANGE
; DISTRIBUTION MODELS
; WATER RELATIONS
; TROPICAL CONDITIONS
; EPIPHYTIC LICHENS
; CHANGE SCENARIOS
; SEASONAL-CHANGES
WOS学科分类:
Plant Sciences
WOS研究方向:
Plant Sciences
英文摘要:
There is an increasing use of bioclimatic models to quantify the climate change response of bryophytes and lichens. The physiological performance of these poikilohydric organisms depends on ambient climatic conditions interacting with light availability. However, bioclimatic models have tended to follow a common practice of selecting temperature/precipitation variables without reference to light as a key functional constraint. In this study a growth chamber simulation was used to reconstruct patterns of temperature-moisture-light for the baseline and 2080s climates, affecting the performance of the lichen Flavoparmelia caperata for a high-latitude (56 degrees N) temperate rainforest study site in Britain. The results demonstrate the importance of increased 2080s warmth and moisture under low winter light (possibly favoring respiration), and increased dormancy during drier and warmer summers (possibly reducing photosynthesis), resulting in negative growth (mass loss) for future climates. This is in direct contrast to the outcome of bioclimatic models applied to the same study site, which project increased environmental suitability based on a warmer and wetter climate (not considering irradiance). The study cautions that predictors for bioclimatic models should be chosen to reflect verified constraints in ecological performance (such as for growth), and especially for poikilohydric organisms this would include the interaction between ambient climate and light availability.
Ellis, Christopher J.. Interactions of climate and solar irradiance can reverse the bioclimatic response of poikilohydric species: An experimental test for Flavoparmelia caperata[J]. BRYOLOGIST,2019-01-01,122(1):98-110