Precipitation Pattern Determines the Inter-annual Variation of Herbaceous Layer and Carbon Fluxes in a Phreatophyte-Dominated Desert Ecosystem
暂无分享,去创建一个
Yan Li | Ran Liu | E. Cieraad | Jie Ma
[1] Gang Huang,et al. Phenological transition dictates the seasonal dynamics of ecosystem carbon exchange in a desert steppe , 2015 .
[2] H. Zhou,et al. Seasonal changes in the water use strategies of three co‐occurring desert shrubs , 2014 .
[3] Li-song Tang,et al. Stable oxygen isotopes reveal distinct water use patterns of two Haloxylon species in the Gurbantonggut Desert , 2014, Plant and Soil.
[4] Ran Liu,et al. A downward CO 2 flux seems to have nowhere to go , 2014 .
[5] R. Scott,et al. When vegetation change alters ecosystem water availability , 2014, Global change biology.
[6] Xiaoying Zhang,et al. Trends of precipitation intensity and frequency in hydrological regions of China from 1956 to 2005 , 2014 .
[7] Yi Y. Liu,et al. Contribution of semi-arid ecosystems to interannual variability of the global carbon cycle , 2014, Nature.
[8] Yan Li,et al. The limited role of snow water in the growth and development of ephemeral plants in a cold desert , 2014 .
[9] P. Verburg,et al. A Synthesis of Climate and Vegetation Cover Effects on Biogeochemical Cycling in Shrub-Dominated Drylands , 2014, Ecosystems.
[10] G. D. Jenerette,et al. Landscape and environmental controls over leaf and ecosystem carbon dioxide fluxes under woody plant expansion , 2013 .
[11] Philippe Ciais,et al. Precipitation amount, seasonality and frequency regulate carbon cycling of a semi-arid grassland ecosystem in Inner Mongolia, China: A modeling analysis , 2013 .
[12] K. Beard,et al. Woody plant encroachment facilitated by increased precipitation intensity , 2013 .
[13] R. Scott,et al. Consequences of Cool-Season Drought-Induced Plant Mortality to Chihuahuan Desert Grassland Ecosystem and Soil Respiration Dynamics , 2013, Ecosystems.
[14] J. Kigel,et al. From desert to Mediterranean rangelands: will increasing drought and inter-annual rainfall variability affect herbaceous annual primary productivity? , 2013, Climatic Change.
[15] Yan Li,et al. The response of CO2 flux to rain pulses at a saline desert , 2012 .
[16] Yan Li,et al. Sublimation over seasonal snowpack at the southeastern edge of a desert in central Eurasia , 2012 .
[17] G. D. Jenerette,et al. High efficiency in water use and carbon gain in a wet year for a desert halophyte community , 2012 .
[18] Olaf Menzer,et al. Carbon dioxide exchange over multiple temporal scales in an arid shrub ecosystem near La Paz, Baja California Sur, Mexico , 2012 .
[19] R. Scott,et al. Cool-season whole-plant gas exchange of exotic and native semiarid bunchgrasses , 2012, Plant Ecology.
[20] G. D. Jenerette,et al. Temperature and precipitation controls over leaf‐ and ecosystem‐level CO2 flux along a woody plant encroachment gradient , 2012 .
[21] J. McDonnell,et al. Organization of complexity in water limited ecohydrology , 2012 .
[22] X. Lee,et al. Identification and correction of spectral contamination in 2H/1H and 18O/16O measured in leaf, stem, and soil water. , 2011, Rapid communications in mass spectrometry : RCM.
[23] F. Giorgi,et al. Changes in snow cover over China in the 21st century as simulated by a high resolution regional climate model , 2011 .
[24] M. Hoerling,et al. On North American Decadal Climate for 2011–20 , 2011 .
[25] P. Fay. Precipitation variability and primary productivity in water-limited ecosystems: how plants 'leverage' precipitation to 'finance' growth. , 2009, The New phytologist.
[26] Markus Reichstein,et al. Consequences of More Extreme Precipitation Regimes for Terrestrial Ecosystems , 2008 .
[27] Nicanor Z. Saliendra,et al. Carbon Fluxes on North American Rangelands , 2008 .
[28] C. Williams,et al. Drivers of inter-annual variability in Net Ecosystem Exchange in a semi-arid savanna ecosystem, South Africa , 2008 .
[29] L. Fenstermaker,et al. Large annual net ecosystem CO2 uptake of a Mojave Desert ecosystem , 2008 .
[30] Laura E. Green,et al. Pulse dynamics and microbial processes in aridland ecosystems , 2008 .
[31] D. Baldocchi,et al. Inter-annual variability in carbon dioxide exchange of an oak/grass savanna and open grassland in California , 2007 .
[32] G. Hegerl,et al. Changes in temperature and precipitation extremes in the IPCC ensemble of global coupled model simulations , 2007 .
[33] Yan Li,et al. Ecophysiological response and morphological adjustment of two Central Asian desert shrubs towards variation in summer precipitation. , 2007, Plant, cell & environment.
[34] W. Oechel,et al. Mature semiarid chaparral ecosystems can be a significant sink for atmospheric carbon dioxide , 2007 .
[35] Hank A. Margolis,et al. Ecosystem-level CO2 fluxes from a boreal cutover in eastern Canada before and after scarification , 2006 .
[36] L. Hipps,et al. Response of Water Vapor and CO2 Fluxes in Semiarid Lands to Seasonal and Intermittent Precipitation Pulses , 2006 .
[37] W. Oechel,et al. Net ecosystem exchange, evapotranspiration and canopy conductance in a riparian forest , 2006 .
[38] Yan Li,et al. Water-use strategy of three central Asian desert shrubs and their responses to rain pulse events , 2006, Plant and Soil.
[39] T. Vesala,et al. On the separation of net ecosystem exchange into assimilation and ecosystem respiration: review and improved algorithm , 2005 .
[40] R. Scott,et al. ECOHYDROLOGICAL IMPLICATIONS OF WOODY PLANT ENCROACHMENT , 2005 .
[41] B. Law,et al. Handbook of Micrometeorology , 2005 .
[42] W. Pockman,et al. Precipitation pulses and carbon fluxes in semiarid and arid ecosystems , 2004, Oecologia.
[43] Osvaldo E. Sala,et al. Thresholds, memory, and seasonality: understanding pulse dynamics in arid/semi-arid ecosystems , 2004, Oecologia.
[44] T. A. Black,et al. Sensitivity and uncertainty of the carbon balance of a Pacific Northwest Douglas-fir forest during an El Niño/La Niña cycle , 2004 .
[45] Dennis D. Baldocchi,et al. Seasonal variation in carbon dioxide exchange over a Mediterranean annual grassland in California , 2004 .
[46] Yiqi Luo,et al. Net ecosystem carbon exchange in two experimental grassland ecosystems , 2004 .
[47] William E. Emmerich,et al. Erratum to ``Carbon dioxide fluxes in a semiarid environment with high carbonate soils'' , 2004 .
[48] James F. Reynolds,et al. Modifying the ‘pulse–reserve’ paradigm for deserts of North America: precipitation pulses, soil water, and plant responses , 2004, Oecologia.
[49] A. Porporato,et al. Water pulses and biogeochemical cycles in arid and semiarid ecosystems , 2004, Oecologia.
[50] James R. Ehleringer,et al. Differential utilization of summer rains by desert plants , 1991, Oecologia.
[51] William J. Massman,et al. Handbook of micrometeorology : a guide for surface flux measurement and analysis , 2004 .
[52] Markus Reichstein,et al. Modeling temporal and large‐scale spatial variability of soil respiration from soil water availability, temperature and vegetation productivity indices , 2003 .
[53] D. Phillips,et al. Source partitioning using stable isotopes: coping with too many sources , 2003, Oecologia.
[54] William E. Emmerich,et al. Carbon dioxide fluxes in a semiarid environment with high carbonate soils , 2003 .
[55] G. Asner,et al. Net changes in regional woody vegetation cover and carbon storage in Texas Drylands, 1937–1999 , 2003 .
[56] W. Oechel,et al. Energy balance closure at FLUXNET sites , 2002 .
[57] P. Ciais,et al. Consistent Land- and Atmosphere-Based U.S. Carbon Sink Estimates , 2001, Science.
[58] J. Wilczak,et al. Sonic Anemometer Tilt Correction Algorithms , 2001 .
[59] Ü. Rannik,et al. Gap filling strategies for defensible annual sums of net ecosystem exchange , 2001 .
[60] M. Scheffer,et al. El Niño as a Window of Opportunity for the Restoration of Degraded Arid Ecosystems , 2001, Ecosystems.
[61] W. J. Shuttleworth,et al. The water use of two dominant vegetation communities in a semiarid riparian ecosystem , 2000 .
[62] Fabian M Jaksic,et al. Variation in vegetation and seed bank in a Chilean semi-arid community affected by ENSO 1997 , 2000 .
[63] J. Norman,et al. Correcting eddy-covariance flux underestimates over a grassland , 2000 .
[64] J. Randerson,et al. Primary production of the biosphere: integrating terrestrial and oceanic components , 1998, Science.
[65] W. K. Lauenroth,et al. Differential use of large summer rainfall events by shrubs and grasses: a manipulative experiment in the Patagonian steppe , 1998, Oecologia.
[66] G. Polis,et al. EL NIÑO EFFECTS ON THE DYNAMICS AND CONTROL OF ANISLAND ECOSYSTEM IN THE GULF OF CALIFORNIA , 1997 .
[67] D. Baldocchi,et al. CO2 fluxes over plant canopies and solar radiation: a review , 1995 .
[68] J. Lloyd,et al. On the temperature dependence of soil respiration , 1994 .
[69] J F Reynolds,et al. Biological Feedbacks in Global Desertification , 1990, Science.
[70] J. H. Looney,et al. Quantitative and Dynamic Plant Ecology. , 1986 .
[71] B. Kowalski,et al. Partial least-squares regression: a tutorial , 1986 .
[72] M. Wesely,et al. Variability of Short Term Eddy-Correlation Estimates of Mass Exchange , 1985 .
[73] E. K. Webb,et al. Correction of flux measurements for density effects due to heat and water vapour transfer , 1980 .
[74] I. Noy-Meir,et al. Desert Ecosystems: Environment and Producers , 1973 .
[75] K. Kershaw,et al. Quantitative and Dynamic Plant Ecology , 1973 .
[76] G. R E G O R,et al. Net Changes in Regional Woody Vegetation Cover and Carbon Storage in Texas Drylands, 1937±1999 , 2022 .