Abstract
Land use change has the potential to influence energy flows, standing crop and biomass turnover at a variety of scales. To understand and quantify the impact of land use change on natural systems, interdisciplinary approaches and concepts linking biophysical and socioeconomic factors are needed. One such approach for analysing the socioeconomic energy flows from land use changes is Human Appropriated Net Primary Production (HANPP). HANPP is defined as the difference between the net primary production of potential vegetation and the actual net primary production remaining in vegetation after harvest. In this study, we used HANPP to quantify the energy flows consequent upon land use/land cover change from 1961 to 1998 in India. Data from the Food and Agricultural Organization Statistics (FAOSTAT) covering land use/land cover estimates, crop production, harvest and fertilizer use data have been used to analyse the trends in HANPP. Land use changes between 1961 and 1998 indicate a small increase in agricultural areas from 58.2% to 60.8% and in forest and woodland areas from 19.0% to 23.2%. Actual above ground net primary production of vegetation increased from 1280.58 to 1818.23 Tg, an increase of approximately 1.4 times over 37 years. Although population increased exponentially, human appropriation of photosynthetic products did not rise as much due to increases in forest cover and agricultural production. Although the HANPP concept is a useful approach to analyse the trends in photosynthetic products brought about by land use changes and harvesting, more robust indicators are needed to understand the impacts associated with these changes. We discuss the relevance of the HANPP analysis results by focusing on land use/land cover change and exploring the inter‐linkages between energy flows and environment.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call