期刊
JOURNAL OF VEGETATION SCIENCE
卷 27, 期 4, 页码 716-727出版社
WILEY
DOI: 10.1111/jvs.12398
关键词
Above-ground net primary production; Grasses; Normalized difference vegetation index; Shrublands; Woody vegetation
资金
- INTA Proyecto Especifico Monitoreo forrajero de Pastizales [AEFP 263011]
- Proyecto Sistema nacional de diagnostico, planificacion, seguimiento y prospeccion forrajera en sistemas ganaderos (FAUBA - INTA - AACREA - MINAGRI)
- Inter-American Institute for Global Change Research (IAI) [CRN3095]
- US National Science Foundation [GEO-1128040]
QuestionsCan herbaceous above-ground net primary production (ANPP) be estimated from remote sensing when woody and herbaceous plants are intermingled? How does herbaceous ANPP change in space and time in an ecosystem dominated by woody species? What are the main controls of herbaceous ANPP to paddock scale? LocationNative plant communities and buffelgrass roller chopped pastures of the Arid Chaco, western Argentina (28-32 degrees S, 64-67 degrees W; area: 100000km(2)). MethodsWe decomposed normalized difference vegetation index (NDVI) data from MODIS (pixel size: 250mx250m) into woody (W) and herbaceous (H) components. We calibrated the relationship between field estimates of herbaceous ANPP and the H component of NDVI using linear regression. The regression model fitted was applied to a 10-yr MODIS database for four paddocks to estimate herbaceous ANPP. We analysed the relationship between herbaceous ANPP and watering point distance and growing season precipitation. ResultsThe annual integral of NDVIxproportion of the herbaceous component [H/(H+W)] explained 71% and 91% of herbaceous ANPP variation in native plant communities and buffelgrass roller chopped pastures, respectively. The regression model fitted, however, differed (P<0.05) between the two types of system. The NDVI annual integral explained a higher proportion of herbaceous ANPP variations than the NDVI annual peak or the growing season (December-April) integral. For native plant communities, herbaceous production increased significantly (P<0.05) with watering point distance, and marginally significantly (P<0.10) with growing season precipitation. For buffelgrass roller chopped pastures, the herbaceous production increased significantly (P<0.05) with growing season precipitation. ConclusionOur model was able to estimate herbaceous ANPP from the decomposition of an NDVI time series that included woody components. Thus, the model provides the basis for more accurate monitoring of spatial and temporal variability of herbaceous ANPP in areas where herbaceous and woody plant components co-exist. Applying our models, we detected clear spatial and temporal patterns of herbaceous ANPP. The possibility of describing in a spatially explicit way the past 14yrs of herbaceous ANPP allows designing livestock management strategies and devise alternatives to control degradation processes in the Arid Chaco.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据