Woody plants modulate the temporal dynamics of soil moisture in a semi‐arid mesquite savanna
暂无分享,去创建一个
Russell L. Scott | Saziye Bayram | R. Scott | Saziye Bayram | Daniel L. Potts | Joaquin Carbonara | J. Carbonara | D. Potts
[1] R. Grayson,et al. CONTROLS ON PATTERNS OF SOIL MOISTURE IN ARID AND SEMI-ARID SYSTEMS , 2006 .
[2] S. Stearns. On Measuring Fluctuating Environments: Predictability, Constancy, and Contingency , 1981 .
[3] François Anctil,et al. Characterization of temporal variability in near-surface soil moisture at scales from 1 h to 2 weeks , 2006 .
[4] R. Reedy,et al. Ecological controls on water-cycle response to climate variability in deserts , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[5] J. Tukey,et al. An algorithm for the machine calculation of complex Fourier series , 1965 .
[6] Deborah L. Angell,et al. Mesquite and grass relationships at two spatial resolutions , 2007, Plant Ecology.
[7] Jehn-Yih Juang,et al. On the spectrum of soil moisture from hourly to interannual scales , 2007 .
[8] R. Scott,et al. The ecohydrologic significance of hydraulic redistribution in a semiarid savanna , 2008 .
[9] T. Thompson,et al. Soil nutrient distributions of mesquite-dominated desert grasslands: changes in time and space , 2005 .
[10] R. Grayson,et al. Scaling of Soil Moisture: A Hydrologic Perspective , 2002 .
[11] T. Huxman,et al. Precipitation pulse size effects on Sonoran Desert soil microbial crusts , 2004, Oecologia.
[12] T. Thompson,et al. Soil C and N pools in patchy shrublands of the Negev and Chihuahuan Deserts , 2006 .
[13] T. Huxman,et al. Antecedent moisture and seasonal precipitation influence the response of canopy-scale carbon and water exchange to rainfall pulses in a semi-arid grassland. , 2006, The New phytologist.
[14] E. Small,et al. Association between Plant Canopies and the Spatial Patterns of Infiltration in Shrubland and Grassland of the Chihuahuan Desert, New Mexico , 2003, Ecosystems.
[15] J. Zak,et al. Assessing the Response of Terrestrial Ecosystems to Potential Changes in Precipitation , 2003 .
[16] Dennis D. Baldocchi,et al. An analysis of soil moisture dynamics using multi-year data from a network of micrometeorological observation sites , 2007 .
[17] Martin Wild,et al. Evaluation of Intergovernmental Panel on Climate Change Fourth Assessment soil moisture simulations for the second half of the twentieth century , 2007 .
[18] M. McClaran,et al. Soil cycling of trace gases in response to mesquite management in a semiarid grassland , 2008 .
[19] Guy R. McPherson,et al. Ecology and Management of North American Savannas , 1998 .
[20] R. Scott,et al. Sensitivity of mesquite shrubland CO2 exchange to precipitation in contrasting landscape settings. , 2008, Ecology.
[21] F. J. Barnes,et al. Interrelationships between plant functional types and soil moisture heterogeneity for semiarid landscapes within the grassland/forest continuum: a unified conceptual model , 2004, Landscape Ecology.
[22] R. Scott,et al. ECOHYDROLOGICAL IMPLICATIONS OF WOODY PLANT ENCROACHMENT , 2005 .
[23] I. Noy-Meir,et al. Desert Ecosystems: Environment and Producers , 1973 .
[24] J. Halley. Ecology, evolution and 1 f -noise. , 1996, Trends in ecology & evolution.
[25] M. Caldwell,et al. Hydraulic lift: water efflux from upper roots improves effectiveness of water uptake by deep roots , 1989, Oecologia.
[26] David G. Williams,et al. Response of net ecosystem gas exchange to a simulated precipitation pulse in a semi-arid grassland: the role of native versus non-native grasses and soil texture , 2004, Oecologia.
[27] J. P. Grime. Vegetation classification by reference to strategies , 1974, Nature.
[28] D. Cable. Seasonal Use of Soil Water by Mature Velvet Mesquite , 1977 .
[29] Osvaldo E. Sala,et al. Hierarchy of responses to resource pulses in arid and semi-arid ecosystems , 2004, Oecologia.
[30] M. Seyfried,et al. Soil water storage and rooting depth: key factors controlling recharge on rangelands , 2006 .
[31] S. C. Martin,et al. Vegetation response to the Santa Rita grazing system. , 1988 .
[32] Robert K. Colwell,et al. PREDICTABILITY, CONSTANCY, AND CONTINGENCY OF PERIODIC PHENOMENA' , 1974 .
[33] Jake F. Weltzin,et al. Leaf gas exchange and water status responses of a native and non-native grass to precipitation across contrasting soil surfaces in the Sonoran Desert , 2007, Oecologia.
[34] E. Odum. The strategy of ecosystem development. , 1969, Science.
[35] S. Hobbie,et al. Spatial and temporal variation in islands of fertility in the Sonoran Desert , 2005 .
[36] A. Comrie,et al. The North American Monsoon , 1997 .
[37] Kelly K. Caylor,et al. On soil moisture–vegetation feedbacks and their possible effects on the dynamics of dryland ecosystems , 2007 .
[38] W. Jarrell,et al. Soil Properties in a Mesquite‐Dominated Sonoran Desert Ecosystem , 1983 .
[39] Robert E. Dickinson,et al. The Response of Soil Moisture to Long-Term Variability of Precipitation , 2002 .
[40] Christopher E. Heil,et al. Effects of Woody Plants on Microclimate in a Semiarid Woodland: Soil Temperature and Evaporation in Canopy and Intercanopy Patches , 1998, International Journal of Plant Sciences.
[41] S. Archer,et al. SOIL RESPIRATION AND NUTRIENT CYCLING IN WOODED COMMUNITIES DEVELOPING IN GRASSLAND , 2004 .
[42] R. Herman,et al. Resource islands predict the distribution of heterotrophic bacteria in chihuahuan desert soils , 1995, Applied and environmental microbiology.
[43] G. Ruyle. Rangeland Livestock Production: Developing the Concept of Sustainability on the Santa Rita Experimental Range , 2003 .
[44] D. Tongway,et al. VEGETATION PATCHES AND RUNOFF–EROSION AS INTERACTING ECOHYDROLOGICAL PROCESSES IN SEMIARID LANDSCAPES , 2005 .
[45] Syukuro Manabe,et al. The influence of potential evaporation on the variabilities of simulated soil wetness and climate , 1988 .
[46] K. Denman,et al. Spectral Analysis in Ecology , 1975 .