Privette, JLTian, YRoberts, GScholes, RJWang, YCaylor, KKFrost, PMukelabai, M2007-03-262007-06-072007-03-262007-06-072004-03Privette, JL, et al. 2004. Vegetation structure characteristics and relationships of Kalahari woodlands and savannas. Global Change Biology, vol. 10(3), pp 281-2911354-1013http://hdl.handle.net/10204/2017http://hdl.handle.net/10204/2017The Kalahari Transect is one of several International Geosphere-Biosphere Programme (IGBP) transects designed to address global change questions at the regional scale, in particular by exploiting natural parameter gradients ( Koch et al., 1995 ). In March 2000, we collected near-synoptic vegetation structural data at five sites spanning the Kalahari's large precipitation gradient (about 300-1000 mm yr (-1)) from southern Botswana (similar to 24 degrees S) to Zambia (similar to 15 degrees S). All sites were within the expansive Kalahari sand sheet. Common parameters, including plant area index (PAI), leaf area index (LAI) and canopy cover (CC), were measured or derived using several indirect instruments and at multiple spatial scales. Results show that CC and PAI increase with increasing mean annual precipitation. Canopy clumping, defined by the deviation of the gap size distribution from that of randomly distributed foliage, was fairly constant along the gradient. We provide empirical relationships relating these parameters to each other and to precipitation. These results, combined with those in companion Kalahari Transect studies, provide a unique and coherent test bed for ecological modelling. The data may be used to parameterize process models, as well as test internally predicted parameters and their variability in response to well-characterized climatological differences.576881 bytesapplication/pdfenCopyright: 2004 Blackwell Publishing LtdVegetation structureKalahari woodlandsPlant area indexLeaf area indexCanopy coverClumpingSavannaSemi-arid vegetationEcologyEnvironmental sciencesBiodiversity conservationArticlePrivette, J., Tian, Y., Roberts, G., Scholes, R., Wang, Y., Caylor, K., ... Mukelabai, M. (2004). Vegetation structure characteristics and relationships of Kalahari woodlands and savannas. http://hdl.handle.net/10204/2017Privette, JL, Y Tian, G Roberts, RJ Scholes, Y Wang, KK Caylor, P Frost, and M Mukelabai "Vegetation structure characteristics and relationships of Kalahari woodlands and savannas." (2004) http://hdl.handle.net/10204/2017Privette J, Tian Y, Roberts G, Scholes R, Wang Y, Caylor K, et al. Vegetation structure characteristics and relationships of Kalahari woodlands and savannas. 2004; http://hdl.handle.net/10204/2017.TY - Article AU - Privette, JL AU - Tian, Y AU - Roberts, G AU - Scholes, RJ AU - Wang, Y AU - Caylor, KK AU - Frost, P AU - Mukelabai, M AB - The Kalahari Transect is one of several International Geosphere-Biosphere Programme (IGBP) transects designed to address global change questions at the regional scale, in particular by exploiting natural parameter gradients ( Koch et al., 1995 ). In March 2000, we collected near-synoptic vegetation structural data at five sites spanning the Kalahari's large precipitation gradient (about 300-1000 mm yr (-1)) from southern Botswana (similar to 24 degrees S) to Zambia (similar to 15 degrees S). All sites were within the expansive Kalahari sand sheet. Common parameters, including plant area index (PAI), leaf area index (LAI) and canopy cover (CC), were measured or derived using several indirect instruments and at multiple spatial scales. Results show that CC and PAI increase with increasing mean annual precipitation. Canopy clumping, defined by the deviation of the gap size distribution from that of randomly distributed foliage, was fairly constant along the gradient. We provide empirical relationships relating these parameters to each other and to precipitation. These results, combined with those in companion Kalahari Transect studies, provide a unique and coherent test bed for ecological modelling. The data may be used to parameterize process models, as well as test internally predicted parameters and their variability in response to well-characterized climatological differences. DA - 2004-03 DB - ResearchSpace DP - CSIR KW - Vegetation structure KW - Kalahari woodlands KW - Plant area index KW - Leaf area index KW - Canopy cover KW - Clumping KW - Savanna KW - Semi-arid vegetation KW - Ecology KW - Environmental sciences KW - Biodiversity conservation LK - https://researchspace.csir.co.za PY - 2004 SM - 1354-1013 T1 - Vegetation structure characteristics and relationships of Kalahari woodlands and savannas TI - Vegetation structure characteristics and relationships of Kalahari woodlands and savannas UR - http://hdl.handle.net/10204/2017 ER -