College of Behavioral & Social Sciences

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    THE WATER-ENERGY-LAND NEXUS OF BIOENERGY PRODUCTION IN BRAZIL
    (2020) Munoz Castillo, Raul; Sun, Laixiang; Geography; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Biofuels play a critical role in the Paris Agreement to help achieve climate change mitigation targets. However, a significant increase in production of biofuels might potentially be realized at the expense of overusing natural resources, particularly land and water. Understanding the tradeoffs between the development of biofuels and its impacts on land and water is a critical issue for sustainable development. This energy-water-land nexus might be particularly important for Brazil, given its position as top exporter and second top producer of bioenergy. Furthermore, Brazil itself has set up its own Intended Nationally Determined Contribution agenda with a significant growth of biofuel production by 2030. The aim of this research is to quantitatively characterize the nexus of biofuels production with the overall appropriation of land and water resources at the subnational level in Brazil by answering the following questions: (i) How will the implementation of international climate mitigation commitments adopted by Brazil impact water and land use and therefore water and land stress in Brazil?; (ii) what will be the geographical distribution of such impacts at subnational level? ; (iii) will increase competition among economic sectors aggravate such impacts?; and (iv) how will other socio-economic and physical drivers of change affect those impacts combined with INDC related policies implementation?. To answer these questions, I developed a set of socio-economic, policy and climate scenarios through an environmentally extended input-output approach that represents socio-economic activities in the 27 Brazilian states, allowing comparison of the resulting water and land demands among main competitive users under different scenarios. I also introduced the use of water scarcity and land stress as environmental impact indicators. My study confirms that to properly understand the impacts of biofuel production in Brazil on land and water and its “nexus”, the consideration of resource scarcity and its spatial variability are key to ensure sustainable planning of biofuel production. Moreover, I found that the mitigation policies committed by Brazil and its role as top global provider of biofuel will take a significant toll in both water and land consumption in the country, leading to increasing competition among food production, energy generation and human consumption, especially in the most vulnerable and already environmentally stressed states.
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    MANAGEMENT MATTER? EFFECTS OF CHARCOAL PRODUCTION MANAGEMENT ON WOODLAND REGENERATION IN SENEGAL
    (2010) Wurster, Karl; Defries, Ruth; Geography; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    In Senegal, as in many parts of Africa, nearly 95% of its growing urban population depends on charcoal as their primary cooking energy. Extraction of wood for charcoal production is perceived to drive forest degradation. The Senegalese government and international donor agencies have created different forest management types with the ultimate goal of sustainably managing forests. This research combines local ecological knowledge, ecological surveys and remote sensing analysis to better understand questions related to how extraction for charcoal production and forest management affect Senegalese forests. Information derived from 36 semi-structured interviews suggests that the forests are degrading, but are depended on for income, grazing and energy. Interviewees understand the rules governing forest management types, but felt they had limited power or responsibility to enforce forest regulations. Ecological survey results confirmed that plots harvested for charcoal production are significantly different in forest structure and tree species composition than undisturbed sites. Across harvested and undisturbed and within forest management types the Combretum glutinosum species dominated (53% of all individuals and the primary species used for charcoal production) and demonstrated robust regenerative capacity. Few large, hardwood or fruiting trees were observed and had insufficient regenerative capacity to replace current populations. Species diversity was higher in co-managed areas, but declined after wood was harvested for charcoal production. Proximity to villages, roads and park edges in harvested and undisturbed plots and within forest management types had little impact on forest structure and tree diversity patterns with the harvesting of trees for charcoal spread consistently throughout the landscape. Remote sensing analysis with the MISR derived k(red) parameter demonstrated its ability to accurately classify broad land classes and showed potential when differentiating between pre- and post-harvest conditions over a three year time period, but could not accurately detect subtle changes in forest cover of known harvest time since last harvest in a single MISR scene. This research demonstrated the utility of multidisciplinary research in assessing the effects of charcoal production and forest management types on Senegalese forests; concluding that the effects of charcoal production on forest characteristics and regenerative capacity are consistent throughout all forest management types.