TY - JOUR
T1 - Positive feedback between microclimate and shrub encroachment in the northern Chihuahuan desert
AU - D'Odorico, Paolo
AU - Fuentes, Jose D.
AU - Pockman, William T.
AU - Collins, Scott L.
AU - He, Yufei
AU - Medeiros, Juliana S.
AU - Dewekker, Stephan
AU - Litvak, Marcy E.
N1 - Funding Information:
The authors gratefully acknowledge the financial support for this research provided by Social Sciences and Humanities Research Council of Canada doctoral fellowships held by SGL and TLV. We wish to thank Dr B. Kooyman of the University of Calgary Department of Archaeology, Dr R. Murphy of the National Park Authority of Antigua and Barbuda and the Athenian Agora Excavations (American School of Classical Studies at Athens) for providing bone samples. We also thank S. Taylor and the staff of the Isotope Science Laboratory of the University of Calgary Department of Physics and Astronomy for sample δ 13 C and δ 18 O analysis. Finally, thanks go to Dr R. Yamdagni and the staff of the University of Calgary Department of Chemistry Instrumentation Facility for access to, and training on, their FTIR equipment.
PY - 2010/12/7
Y1 - 2010/12/7
N2 - Woody plant encroachment is affecting vegetation composition in arid grasslands worldwide and has been associated with a number of environmental drivers and feedbacks. It has been argued that the relatively abrupt character (both in space and in time) of grassland-to-shrubland transitions observed in many drylands around the world might result from positive feedbacks in the underlying ecosystem dynamics. In the case of the Chihuahuan Desert, we show that one such feedback could emerge from interactions between vegetation and microclimate conditions. Shrub establishment modifies surface energy fluxes, causing an increase in nighttime air temperature, particularly during wintertime. The resulting change in winter air temperature regime is important because the northern limit of the dominant shrub in the northern Chihuahuan Desert, Larrea tridentata, presently occurs where minimum temperatures are sufficiently low to be a potential source of mortality. Using freezing responses from published studies in combination with observed temperature records, we predict that a small warming can yield meaningful changes in plant function and survival. Moreover, we also suggest that the effect of the change in air temperature on vegetation depends on whether plants experience drought during winter. Thus, in the Chihuahuan region a positive feedback exists between shrub encroachment and changes in microclimate conditions, with implications for the response of this ecosystem to regional changes in temperature and precipitation.
AB - Woody plant encroachment is affecting vegetation composition in arid grasslands worldwide and has been associated with a number of environmental drivers and feedbacks. It has been argued that the relatively abrupt character (both in space and in time) of grassland-to-shrubland transitions observed in many drylands around the world might result from positive feedbacks in the underlying ecosystem dynamics. In the case of the Chihuahuan Desert, we show that one such feedback could emerge from interactions between vegetation and microclimate conditions. Shrub establishment modifies surface energy fluxes, causing an increase in nighttime air temperature, particularly during wintertime. The resulting change in winter air temperature regime is important because the northern limit of the dominant shrub in the northern Chihuahuan Desert, Larrea tridentata, presently occurs where minimum temperatures are sufficiently low to be a potential source of mortality. Using freezing responses from published studies in combination with observed temperature records, we predict that a small warming can yield meaningful changes in plant function and survival. Moreover, we also suggest that the effect of the change in air temperature on vegetation depends on whether plants experience drought during winter. Thus, in the Chihuahuan region a positive feedback exists between shrub encroachment and changes in microclimate conditions, with implications for the response of this ecosystem to regional changes in temperature and precipitation.
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U2 - 10.1890/ES10-00073.1
DO - 10.1890/ES10-00073.1
M3 - Article
AN - SCOPUS:79959361284
SN - 2150-8925
VL - 1
JO - Ecosphere
JF - Ecosphere
IS - 6
M1 - 17
ER -