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Soils are complex, evolving systems that simultaneously shape and are shaped by numerous biotic and abiotic factors in a vast web of interactions that creates the conditions for the propagation of life and the maintenance of human societies. Yet, land use and land use change (LULUC) and anthropogenic climate change (CC) are forcing substantial and rapid alterations into soil’s properties and processes, thus affecting the functions and services derived from it. The resulting land degradation (LD) is now spread, according to recent estimates, over nearly 30 % of the world’s total land, mostly on the population dense and impoverished tropics, a zone predicted to withstand the worst impacts of CC. The Atlantic Forest in Brazil is a particularly vulnerable environment, and the unusual drought of 2014-2017 that hit its Southeastern region is likely the harbinger of a progressively drier future.
The way the prelude of what might be an increasingly frequent hazard affected farmers’ livelihoods and natural resources, and the manner in which they reacted to those impacts can thus reveal points of strength and fragility that could be respectively harnessed or addressed to develop a more sustainable agriculture and climate resilience. This master thesis focused on characterizing those impacts and reactions on distinct dairy production systems in two municipalities in Northwestern Rio de Janeiro: Santo Antônio de Pádua and Cambuci. Through interviews and in loci observations, the researcher collected data concerning environmental services (erosion prevention, soil cover and water provision), production variables (inputs and outputs), socio-economic information, farm system management and farmers’ future perspectives. The results show that dairy production systems in the region are heterogeneous and, although they may share common characteristics, drought outcomes were closely tied to the specificities of each farm. Ultimately, outcomes originated from differences in water supply, water demand, and feed availability, their subsequent change by the drought and farmers’ reaction to those changes at each property.
Water is an eminently important element for societal development. It must be available in sufficient quantity and quality to meet human requirements of consumption, food production and sanitation. The riverine ecosystems are increasingly deteriorated due to human interventions. This leads to changes in the natural flow patterns. The concept of environmental flow started to emerge. Due to the importance of environmental flow in the integrated river basin management, researchers and scientists worldwide have made great efforts towards assessing the environmental flow requirements in river ecosystems. Various tools and techniques were defined. Governmental authorities and water ministries (all over the world including Egypt) have introduced regulations and policies to assure the vitality of environmental flow in river management and water allocation too.
Although different methods are available for the environmental flow assessment, those techniques are not practically applied. Implementing the environmental flow in real world is a challenge, due to the lack of political will and the stakeholder support, the institutional barriers and conflicts of interest, and finally the insufficient resources and capacity in environmental management institutions. It is a multidisciplinary and intersectoral process.
The present study aims to report the importance of environmental flow regarding the inhabitants’ daily life as well as the overall Egyptian socio-economic, political and health status. It demonstrates the methods of applying the Environmental flow concept in Egypt with a focus on social and political aspects, detailing the current situation in Egypt, and clarifying the obstacles that face the implementation process. The data was collected via local people questionnaires, stakeholders’ interviews and field visits. The study proposes solutions to evade the environmental flow implementation obstacles and overcome current challenges. Moreover, the study predicts future issues and offers solutions to avoid their occurrence.
Jordan is deemed as one of the least water-endowed regions in the world. The acute water shortage, accompanied with changing climatic conditions have necessitated the increasing use of treated wastewater (TWW), predominantly in irrigated agriculture sector. This is especially true with the upper Zarqa River. The ample supply of TWW resources can be found there; paradoxically, the practical implementation of TWW reuse is hindered by the enforcement of irrigation water quality standard, compounding pressure on the dwindling groundwater resources. In light of the large potential source of TWW, this study aims to supply knowledge on maximizing the safe reuse of TWW while minimizing the environmental impacts within the local environment of the upper Zarqa River. A SWOT analysis was conducted to identify the strengths, weaknesses, opportunities, and threats of TWW reuse for agriculture in the local context. In recognition of the projected growth in the treated effluent to more than 135 MCM in the coming ten years, and how it would affect the water use on the study region, several plausible development scenarios were proposed based on expected developments on the ground. Considering the vital role of TWW in sustaining multiple ecosystem services, this study addresses the need to review current standard, encourages managed aquifer recharge with TWW, recommends crops type modification, and enhances knowledge on suitable practices at farm level. Each of these factors is needed in order to deliver a range of ecosystem services to sustain the local rural communities and to advance them in the face of profound challenges, thereby leading to its stability and increased productivity.