Sediment connectivity in the upper Thina Catchment, Eastern Cape, South Africa

Van der Waal, Benjamin Wentsel

January 2015

[Portion of abstract]: Sediment dynamics are influenced by transformed landscape connectivity in catchments worldwide. The upper Thina catchment, an important high rainfall resource in the northern Eastern Cape, South Africa, is an example of where ongoing subsistence farming on communal land has led to overgrazing and trampling that has initiated large erosive features (e.g. gullies) and river incision. The formation of gullies led to increased hillslope-channel connectivity and the resultant river incision decreased the channel-valley fill connectivity. These two changes in connectivity led to increased sediment export from the catchment that has various down-stream ecological and socio-economic impacts. This study investigates how the change in hillslope-channel and channel-valley fill connectivity has altered the sediment dynamics in the Vuvu catchment, a headwater tributary of the Thina River. A combination of methods were used to assess the changes in hillslope-channel and channel-valley fill connectivity. High resolution aerial images were used to map source features, such as fields, gullies, sheet erosion, landslides, roads and livestock tracks. Topographic and geological characteristics of the source features were extracted using a Geographic Information System. Furthermore, hillslope-channel pathways, such as the natural drainage network, continuous gullies, discontinuous gullies, roads and livestock tracks were mapped and analysed in terms of topographic and geological characteristics. Historic aerial images were assessed to calculate the date the larger gullies began forming. Recent aerial photos and cross sectional surveys of the valley fill were combined to map the various sediment sinks. Particle size and organic content were analysed for flood bench cores and terrace samples. The chronology of the flood benches was determined using unsupported Pb-210 and Cs-137 dating, and determined for the terraces using Optically Stimulated Luminescence dating. Quantitative and qualitative sediment tracing approaches, using mineral magnetic properties, were used to trace the origin of suspended sediment (collected during flood events), sediment stored in the flood benches and sediment stored in the terraces. Hydrological monitoring was used to assess the potential to store sediment on flood benches along the valley fill through flood bench inundation frequency. Hydrological and hydraulic modelling extended the measured inundation frequencies to a 73 year period and other cross sections along the valley fill. Furthermore, a future scenario of an increased vegetation cover and reduced hillslope-channel connectivity was assessed in terms of channel-valley fill inundation frequency.

Arroyos -- South Africa -- Eastern Cape

A political ecology of conservation : peri-urban agriculture and urban water needs in Mexico City

Heimo, Maija

05 1900

This dissertation examines the cultural politics of conservation efforts in Mexico City, where in 2000, the city legislated a soil and water conservation plan in its rural areas. During 12-months of field work in the village of San Luis Tlaxialternalco 1 focused on how the conservation plan was to be established in the wetlands with chinampa agriculture, directly above one of the city's fresh water reservoirs. Political ecology research of conservation suggests that ecosystemic processes are intricately linked to economic and social processes on many scales. Post-structuralist analysis has complicated homogeneous and generalizing descriptions of social categories, politics of power, and the causality between socio-economic, political, cultural, and ecological factors. Research in political ecology emphasizes the diversity of actors and their subject positions and seeks to locate and understand the dynamics of power and agency within and outside formal institutions. I examined the negotiations of the conservation plan on three social scales and I looked at the intersecting axes of power and the knowledge of various actors, and how they inform conservation. On the scale of the state, a discursive analysis of the 'coloniality of power' of the conservation plan uncovers the city government's underlying assumptions about how the fanners' land use practices and social organization contribute to the conservation effort. I ask how do those assumptions define and condition chinampa farmers as 'Indian'? I conclude that in the conservation plan, colonially-based discourses constitute rural communities and agriculturalists in ways that subject them to the city's needs and interests, and exclude them from equal livelihood opportunities. In San Luis Tlaxialternalco I examined ideas of 'community' by documenting how the conservation plan affected local power relations. Analyzing the dynamics among chinampero farmers in their meetings, I exarnined the alliances in and the 'voice' of the village. I conclude that 'community' is a fluid and contested entity shaped by class, knowledge, and cultural values in unpredictable constellations. The tjaird scale of analysis concerns women's knowledge and voice, and examines ideas of silence as agency. In semi-structured interviews and participant observation in farmer women's everyday lives in San Luis I explored how they make decisions that affect the environment. The research shows that multiple constraints and opportunities, such as economic responsibilities, class, prestige, and patriarchy shape women's daily lives and direct their decisions to advance goals consistent with their values even when their decisions may undermine the long-term health of the environment they depend on. By looking at the micropolitics of conservation, my research provides cultural understanding of how at different scales decisions that affect ecology are made and how they are articulated through cultural idioms in the charged context of the conservation plan. The dissertation de-mystifies predominant representations of chinampas and chinamperos. It also complicates ideas of 'cornmirnity' and suggests that the analysis has to go beyond class and include values and knowledge. Further, I show that relevant ecological knowledge does not automatically lead to 'appropriate' action, and that silence can be a powerful tool that resists impositions and firrthers individual and community interests. Finally, the thesis suggests that political ecologists need to move away from equating power with action and activism within "progressive movements", and that conservation efforts need to have multiple goals and follow diverse strategies. / Arts, Faculty of / Geography, Department of / Graduate

Evaluation of Soil Quality and Conservation versus Conventional Tillage Methods in Trumbull County

Perrotta, Robert J.

02 September 2021

No description available.

Earth

Economic Theory

Environmental Economics

Environmental Science

Environmental Studies

Environmental Philosophy

Environmental Education

Environmental Health

Agriculture

Agronomy

Agricultural Education

Agricultural Economics

Soil Sciences

Sustainability

Soil Quality

Land Management

Agricultural Tillage

Evaluation

Soil Health

Agricultural Systems

Soil Conservation

Impact of Land Use and Climate Change on Hydrological Ecosystem Services (Water Supply) in the Dryland Area of the Middle Reaches of the Yellow River

Zhang, Lulu

08 October 2015

Driven by many factors, the water supply services (streamflow and groundwater) of many rivers in the dryland area of China have declined significantly. This aggravates the inherent severe water shortages and results in increased severity in the water use conflicts that are threatening sustainable development in the region. Innovative strategies towards more water-efficient land management are vital for enhancing water quantity to ensure water supply security. A key step in the successful development and implementation of such measures is to understand the response of hydrological processes and related services to changes in land management and climate. To this end, it was decided to investigate these processes and responses in the upper reaches of the Jing River (Jinghe), an important meso-scale watershed in the middle reaches of the Yellow River on the Loess Plateau (NW China). It has been shown that vegetation restoration efforts (planting trees and grass) are effective in controlling soil erosion on the Loess Plateau. Shifts in land cover/use lead to modifications of soil physical properties. Yet, it remains unclear if the hydraulic properties have also been improved by vegetation restoration. A better understanding of how vegetation restoration alters soil structure and related soil hydraulic properties, such as water conductivity and soil water storage capacity, is necessary. Three adjacent sites, with comparable soil texture, soil type, and topography but contrasting land cover (Black locust forest, grassland, and cropland), were investigated in a small catchment in the upstream Jinghe watershed (near Jingchuan, Gansu province). Seasonal variations of soil hydraulic properties in topsoil and subsoil were examined. Results revealed that the type of land use had a significant impact on field-saturated, near-saturated hydraulic conductivity, and soil water characteristics. Specifically, conversion from cropland to grass or forests promotes infiltration capacity as a result of increased saturated hydraulic conductivity, air capacity, and macroporosity. Moreover, conversion from cropland to forest tends to promote the formation of mesopores that increase soil water storage capacity. Tillage in cropland temporarily created well-structured topsoil, but also compacted subsoil, as indicated by low subsoil saturated hydraulic conductivity, air capacity, and plant available water capacity. An impact of land cover conversion on unsaturated hydraulic conductivities was not identified, indicating that changes in land cover do not affect functional meso- and microporosity. Changes in soil hydraulic properties and associated hydrological processes and services due to soil conservation efforts need to be considered, should soil conservation measures be implemented in water-limited regions for sustaining adequate water supply. To differentiate between the impacts of land management and climate change on streamflow, the variation of annual streamflow, precipitation, potential evapotranspiration, and climatic water balance in a small catchment of the upstream Jinghe watershed (near Pingliang, Gansu province) was examined during the period of 1955 – 2004. During this time the relative contributions of changes in land management and climate to the reduction of streamflow were estimated. A statistically significant decreasing trend of -1.14 mm y-1 in annual streamflow was detected. Furthermore, an abrupt streamflow reduction due to afforestation and construction of terraces and check-dams was identified around 1980. Remarkably, 74% of the total reduction in mean annual streamflow can be attributed to the soil conservation measures. Among various conservation measures, streamflow could be considerably reduced by afforestation and terracing (including damland creation), due to their low contribution to water yield. In contrast, slope farmland and grassland can maintain a certain level of water supply services due to higher runoff coefficients. According to a meta-analysis of the published studies on the Loess Plateau, the impact of changes in land management on annual streamflow appears to diminish with increasing catchment size while the impact of climate change appears uniform across space. This means that there is a dependency between the catchment size and the response of hydrological processes to environmental change. At least at the local scale, it appears that well-considered land management may help to ensure the water supply services. Due to limited surface water availability, groundwater is an essential water source for supporting ecosystem and socio-economic development in the dryland region. However, the groundwater process is susceptible and vulnerable to changes in climate and landscape (i.e., land cover and form) that in turn can result in profound adverse consequences on water supply services in water-limited regions. In addition, an improved understanding of the response of groundwater related processes to natural and artificial disturbances is likely to ensure more secure and more sustainable governance and management of such regions, as well as better options for adapting to climate change. Yet, this topic has seldom been researched, especially in areas that have already experienced large-scale alteration in landscape and are located in dryland regions, such as the Loess Plateau. Therefore, an investigation of the baseflow variation along the landscape change was conducted. The average annual baseflow has significantly decreased at catchment scale during the period of 1962 – 2002 without any obvious significant change in climate. At decadal scale, the reduction accounts for approximately 9% in the 1970s, 48% in the 1980s, and 92% in the 1990s, while the baseflow index declines averaging 5%, 16% and 67%, respectively. All of the monthly baseflow levels dropped at varying rates except in January, among which July was the most severe in terms of both magnitude (-4.17) and slope (-0.09 mm y-1). In perspective of landscape change, landform change (terrace and check-dam) tends to reduce baseflow by reallocation of surface fluxes and retention for crop growth causing limited deep drainage in other areas. Land cover change (i.e., afforestation) reduced the baseflow to a larger extent by enhanced evapotranspiration and thus hampered deep drainage as suggested by the soil moisture measurement underneath. The study indicates that knowledge about baseflow formation on catchment scale needs further improvement. Integrated soil conservation and water management for optimizing landscape structure and function in order to balance soil (erosion) and water (supply) related hydrological ecosystem services is vital. The governing processes to the changes of water-supply-services-related hydrological process (e.g., streamflow) are assumed to be different across space. To this end, the factors controlling streamflow were investigated on both a small and large scale. Streamflow in small catchments was found to be mainly controlled by precipitation and land cover type. On a larger scale, evaporative demand was found to be another additional major driving force. Hydrological modeling is a frequently used tool for the assessment of impacts of land use and climate change on water balance and water fluxes. However, application of the Soil and Water Assessment Tool (SWAT) model in the upstream Jinghe watershed was unsuccessful due to difficulties in calibration. The inability of the SWAT model to take the influence of terraces on steep slopes into consideration and the method how to calculate lateral flow were the main reasons for unsatisfactory calibration, at least for the current version of SWAT used in this study. Alternatively, Budyko’s frameworks were applied to predict the annual and long-term streamflow. However, the effect of changes in land management (e.g., afforestation) on streamflow could not be assessed due to a lack of vegetation factors. Therefore, an empirical analysis tool was derived based on an existing relationship for estimation. This method was found to be the most effective in reproducing the annual and long-term streamflow. The incorporation of temporal changes in land cover and form in the approach enables the estimation of the possible impact of soil conservation measures (e.g., afforestation or terracing). The importance of adaptive land management strategies for mitigating water shortage and securing the water supply services on the Loess Plateau was highlighted. A cross-sectoral view of the multiple services offered by managed ecosystems at different spatial scales under changing environments needs to be integrated to improve adaptive land management policy. In a water limited environment, such as the Loess Plateau, multiple ecosystem services including hydrological services need to be balanced with minimum trade-offs. This can only be achieved when management is based on a holistic understanding of the interdependencies among various ecosystem services and how they might change under alternative land management.

info:eu-repo/classification/ddc/550

ddc:550

info:eu-repo/classification/ddc/710

ddc:710

Experimentelle Untersuchung zum Einfluss der Makroporendichte auf das Infiltrationsverhalten landwirtschaftlich genutzter Böden

Bornkampf, Constance

18 November 2013

Soil is an important ecosystem and at the same time filter and storage for water. With respect to flood and erosion prevention, it is important to improve water retention and infiltration rates in soils to reduce surface run-off. The aim of the study is to quantify the influence of biogenic macropores on infiltration. The effect of the cropping system and management practices on macropore density and infiltration rate was examined. Soil hydraulic conductivity was determined by soil column experiments and field investigations using a hood infiltrometer and rainfall-simulation experiments. Macropores have a great effect on hydraulic conductivity. A large macropore-density results in high infiltration rates. This relationship is described with the skinfactor, applying the Erosion-2D model to adjust infiltration rates. Conservative agricultural management practices show positive effects on earthworm population and hence macropore density. The beneficial effects of no-tillage include less soil disturbance, greater quantities of crop-residues remaining on the soil surface and increased soil moisture.:Abkürzungs- und Symbolverzeichnis Tabellenverzeichnis Abbildungsverzeichnis Danksagung Summary 1 Einleitung 1.1 Motivation und Ziel der Arbeit 2 Stand des Wissens 2.1 Grundlagen zum Wasserfluss im Boden 2.1.1 Beschreibung des Infiltrationsprozesses im Boden 2.2 Definition des Begriffes Makropore, deren Entstehung und Einflüsse im Boden 2.2.1 Zusammenhang zwischen Bodenbearbeitung und dem Vorhandensein von Makroporen 2.2.2 Einfluss der Makroporen auf den Wasserfluss und die Infiltration 2.3 Ansätze zur Modellierung des Makroporenflusses 2.3.1 Dual-Porositäts-Modelle 2.3.2 Einfache empirische Schätzverfahren 3 Material und Methoden 3.1 Standorte 3.2 Geländeversuche 3.2.1 Erfassung bodenphysikalischer Parameter 3.2.2 Ermittlung der hydraulischen Leitfähigkeit 3.2.2.1 Haubeninfiltrometermessungen 3.2.2.2 Beregnungsversuche 3.2.3 Erfassung des Makroporensystems 3.3 Säulenversuche 3.3.1 Vorversuche 3.3.2 Experimente mit L. terrestris 3.3.3 Experimente mit künstlichen Makroporen 3.3.4 Experimente ohne Makroporen 3.4 Ableitung des Modellparameters Skinfaktor 4 Ergebnisse 4.1 Ergebnisse der Geländeversuche am Standort Lüttewitz 4.1.1 Bodenphysikalische Parameter 4.1.2 Beregnungsexperimente 4.1.3 Hydraulische Leitfähigkeit 4.1.4 Makroporensystem 4.1.5 Auswertung der Tracerversuche am Standort Lüttewitz 4.2 Ergebnisse der Geländeversuche Standort Oberwinkel 4.2.1 Bodenphysikalische Parameter 4.2.2 Beregnungsexperimente 4.2.3 Makroporensystem 4.2.4 Skinfaktorenermittlung 4.3 Ergebnisse aus den Säulenversuchen 4.3.1 Verteilung der Grabgänge 4.3.2 Messung der hydraulischen Leitfähigkeit 5 Interpretation und Diskussion der Ergebnisse 5.1 Experimente im Gelände 5.1.1 Vergleich der kf-Werte aus Haubeninfiltrometermessung und Beregnung 5.2 Auswertung und Interpretation der Ergebnisse aus den Säulenversuchen 5.3 Vergleich Makroporenkennwerte mit bodenhydrologischen Messgrößen 5.4 Vergleich Makroporenkennwerte mit Modellparametern 5.5 Einfluss der Bewirtschaftung 6 Zusammenfassung Literaturverzeichnis

info:eu-repo/classification/ddc/550

ddc:550

Deep anthropogenic topsoils in Scotland : a geoarchaeological and historical investigation into distribution, character and conservation under modern land cover

McKenzie, Joanne T.

January 2006

Deep anthropogenic topsoils – those augmented through long-term additions of mineral bulk among fertilising agents – retain in both their physical and chemical make-up significant indicators for cultural activity. This project researched the geographical distribution and historical context of deep anthropogenic topsoils in Scotland and the Isles, and used this information to investigate the impact of current land cover upon the cultural information they retain. In so doing, the project investigated the potential for conservation of this significant cultural resource. A review of the historical information available on agricultural and manuring practices for Scotland identified several factors likely to affect deep topsoil distribution and frequency. These were: the availability of bulk manures to Scottish farmers, the significance of the seaweed resource in determining fertiliser strategies in coastal areas, and the influence of urban settlement and associated patterns of domestic and industrial waste disposal on the location of deep topsoils. Evidence for widespread deep topsoil development was limited. The primary data source used – the First Statistical Account of Scotland – was manipulated into a spatial database in ArcView GIS, to which geographical data from the Soil Survey of Scotland and national archaeological survey databases were added. This was used to devise a survey programme aiming both to investigate the potential factors affecting soil development listed above, and to locate deep topsoil sites for analysis. Three sites were identified with deep topsoils under different cover types (woodland, arable and pasture). The urban-influenced context of two of these highlighted the significance of urban settlement to the location of Scottish deep topsoils. Analysis of pH, organic matter, and total phosphorus content showed a correlation between raised organic matter and a corresponding increase in phosphorus content in soils under permanent vegetation. By contrast, soils under arable cultivation showed no such rise. This was attributed to the action of cropping in removing modern organic inputs prior to down-profile cycling. The potential for pasture and woodland cover to affect relict soil signatures was therefore observed. Thin section analysis aimed to both provide micromorphological characterisation of the three deep topsoil sites and investigate the effect of modern land cover on micromorphological indicators. Distinctive differences in micromorphological character were observed between the rural and urban deep topsoils, with the latter showing a strong focus on carbonised fuel residues and industrial wastes. All sites showed a highly individual micromorphological character, reflective of localised fertilising systems. There was no correlation between land cover type and survival of material indictors for anthropogenic activity, with soil cultural indicators surviving well, particularly those characteristic of urban-influenced topsoils. Suggestions for preservation strategies for this potentially rare and highly localised cultural resource included the incorporation of deep anthropogenic topsoil conservation into current government policy relating to care of the rural historic environment, and the improvement of data on the resource through ongoing survey and excavation.

631.49411

Using Critical Physical Geography to Map the Unintended Consequences of Conservation Management Programs

Malone, Melanie

06 June 2017

A variety of conservation trends have gained and lost favor throughout the years in agriculture, with U.S. Farm Bills often influencing what conservation practices are implemented by farming communities throughout the U.S. This dissertation focuses on the unintended consequences of conservation management practices in the Fifteenmile Watershed of Wasco County, Oregon. Specifically, I seek to address how farmer enrollment in various conservation techniques, loosely defined as no-till agriculture, has affected soil and water quality through the increased use of herbicide, and subsequently rendered ecological and human health vulnerable. Using a critical physical geography framework, I address both the biophysical factors and social structures that have co-produced changes in soil and water quality in the study area of this research through intensive physical field data collection, spatial analysis, social surveys, and interviews. I also demonstrate how three neoliberal sets of processes: market-friendly reregulation; state rollback and deregulation; and the creation of self-sufficient individuals and communities, have transformed the human socio-environmental relationship to agriculture. These processes have had significant effects on the policies governing how soil and water quality are managed on both a state and national level, and have created a dependence on enrollment in conservation practices that may ultimately prove counterproductive for long term goals of environmental protection and sustainability.

Soil conservation -- Case studies

Agriculture and state -- Oregon

Agriculture

Environmental Sciences

Natural Resources and Conservation

The economics of erosion and sustainable practices : the case of the Saint-Esprit watershed

Dissart, Jean-Christophe.

January 1998

The Saint-Esprit watershed project was initiated to address the issue of nonpoint source agricultural pollution and relies on the adoption of sustainable practices tested on-farm by willing farmers. To study the economic impact of an increasing erosion constraint at the farm and the watershed scales, four Mixed Integer Linear Programming (MILP) models, corresponding to three selected farms and the watershed, were built. The models maximize the sum of field net margins subject to singleness of field use, animal nutrient requirements, and erosion. / Scenario results show that increasing the erosion constraint: (1) reduces soil loss from agricultural production; (2) forces cropping patterns and farming practices to change; (3) reduces profits; and (4) induces marginal and average costs to increase at an increasing rate. Also, with comparable average soil losses per hectare, farms with lower net margins would be worse off if the erosion target was set at the watershed level.

Saint-Esprit River Watershed (Québec)

Analyse du fonctionnement de quelques aménagements de conservation des eaux et du sol: cas des banquettes en Tunisie centrale et des lacs collinaires dans la Haute vallée de Medjerda / Analysis of some water and soil conservation measures: contour bench ridge in Central Tunisia and small hill dams in the Medjerda upper stream

Khlifi, Slaheddine

06 July 2007

L’objectif du présent travail est l’analyse du fonctionnement des aménagements antiérosifs les plus répandus en Tunisie, les banquettes et les lacs collinaires. L’évaluation des banquettes a été basée sur leur caractérisation, le diagnostic de leur état, leur incidence sur le développement et la croissance de la culture de l’orge et leur impact sur certains paramètres physico-chimiques du sol. La reconstitution des apports hydriques, l’estimation des prélèvements pour l’irrigation et la détermination des apports solides moyens et exceptionnels ont été utilisés comme indicateurs pour l’évaluation des lacs collinaires. L’analyse diachronique a mis en évidence l’importance des cultures annuelles du périmètre aménagé en banquettes et la régression des espaces réservés aux terrains de parcours au cours du temps. Les résultats montrent que certaines banquettes ont été surdimensionnées tel que pour les écartements, les superficies des inter-ouvrages et leur longueur. Le diagnostic de l’état des ouvrages montre qu’une forte proportion des banquettes a été affectée par diverses formes de dégradation qui semblent être en rapport avec l’événement pluvieux exceptionnel de l’hiver 2003. L’évaluation des effets de l’aménagement en banquettes sur la production des céréales montre que la croissance, le développement végétatif et la production de matière sèche de la culture d’orge ont été significativement améliorés pour la zone située à proximité de l’ouvrage en comparaison avec la zone non aménagée. Après plus de trois décennies de la réalisation de l’aménagement, l’accroissement du rendement attribué à la mise en œuvre des banquettes a été évalué à 33% à proximité du bourrelet et à près de 10% en intégrant la superficie de l’ensemble de l’inter-banquette. Par ailleurs, l’aménagement en banquettes permet d’accroître la profondeur du sol, la teneur en matière organique, la capacité de rétention de l’eau, la fraction fine du sol et de réduire le taux de cailloux dans la zone limitrophe des ouvrages. Le taux de carbonates, le pH et la conductivité électrique semblent être non affectés par la mise en œuvre des banquettes. L’évaluation des prélèvements annuels, pour les besoins en eau d’irrigation, en moyenne durant la période de suivi, au niveau des lacs collinaires sur l’oued Fathiza I, l’oued Ras Rmal et l’oued Sned sont plus faibles que les apports effectifs indiquant une sous-utilisation de l’eau. Les apports moyens effectifs représentent entre 36% et 195% des apports estimés selon les ouvrages. Les apports solides moyens initialement estimés pour chacun des trois ouvrages ont été sous évalués se traduisant ainsi par une sédimentation prématurée. Les taux élevés de sédimentation risquent de compromettre la durée de vie des réservoirs. Les pertes de capacité, à la suite des précipitations exceptionnelles de l’hiver 2003, varient de 3,5% à 7,3% de la capacité initiale. Ces taux de sédimentation montrent l’impact des évènements paroxysmiques sur l’érosion au niveau des bassins versants de ces lacs collinaires. La spatialisation de la sédimentation à travers les cuvettes montre que l'essentiel du dépôt solide a lieu à l'amont des cuvettes. / Doctorat en environnement / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Aménagement du territoire

Regional planning -- Tunisia

Soil erosion -- Tunisia

Soil conservation -- Tunisia

Valleys -- Tunisia

Aménagement du territoire -- Tunisie

Sols -- Erosion -- Tunisie

Sols -- Conservation -- Tunisie

Vallées -- Tunisie

érosion

Tunisie

banquettes

assessment

évaluation

lacs collinaires

hill dam

contour bench ridge

erosion

Tunisia

Prospects of sustainable land management amidst interlocking challenges in the Upper Beshillo Catchments, Northeastern Highlands of Ethiopia

Asnake Yimam Yesuph

06 1900

Land degradation is a great threat to the Beshlo Catchment in Blue Nile Basisn, not merely as an environmental issue, but also a social and economic problem. In Gedalas Watershed (one of the micro catchments of Beshelo), land degradation, mediated by both biophysical and socio-economic drivers, is among the major environmental sustainability and social-economic development threats in the area. The threat is manifested in depletion of natural vegetations, water, soil and other natural resources; disruption of ecosystem functions, processes, integrity, and services. Given its particular vulnerability, watershed management activities have been in operation since the mid-1970s. Recently, the idea of Sustainable land management through integrated watershed development program has been initiated with the objective of reducing land degradation risks and ensuring food security at both the nationwide and family circle. Despite these investments and efforts, real evidences of success and failures of such efforts were not satisfactory explored. The objectives of this study were, therefore, to analyze the existing status and future prospects of sustainable land management and evaluates its implication on the environmental integrities and the local livelihoods specific to Gedalas watershed. For this effect, the study investigated the dynamics, deriving forces and implications of LULC, soil erosion and soil fertility status of the watershed, current status of watershed management practices, pertinent challenges and opportunities for practicing land management technologies and approaches that might help meet the sustainability requirements of SLM practices. In addition, the study explored factors that determine the willingness of farming households to undertake SLM practice. As the study carried in the coupled human-environment system of rural landscapes, interdisciplinary geographical approaches which integrats social and natural science methodologies were employed to deal with issues of land degradation-and-rehabilitation status comprehensively. The general findings of the study show that though it would be dificult to measure all the composite aspects of land degradation, some of the parameters considered in this study revealed that land degradation is a perpetuating challenge in the watershed. It is evidenced from the overall undesirable land use/cover changes i.e transition of 21.25% of Afro/sub alpine landscapes, 17.59% of the grasslands and 8% of shrub lands to either to cultivated land or settlement areas over the 1973–2017 period, which have unintended negative socio-ecological repercussions on the watershed; high annual mean soil loss value (which range from 37t/ha/year average values to 393 t/ha/yr soil loss rates on water courses) that exceed threshold level and a wide gap between the need for SLM and the actual achievement of SLM practices,including limited adherence to the idea behind contemporary land management policies and implementation principles and approaches. The study further revealed the presence of opportunities as well as a myriad of challenges that need to be tackled in order to achieve sustainable land management goals. The study colcludes that, though, some encouraging progresses have been observed in the SLM project sites; land degradation has remained a problem in the watershed. This calls for strenuous efforts to promote and assist wide scale adoption of SLM practices that address the pervasive land degradation problem and achieve land degradation neutrality as highlighted in sustainable development goals. / Department of Geography / Ph. D. (Geography)

Land degradation

Soil erosion

LULC

LULC change

RUSLE

SLM

Livelihood

Upper Beshillo watershed, Ethiopia

630.685

Land use, Rural -- Ethiopia -- Planning

Farmers -- Ethiopia -- Finance, Personal

Land degradation -- Ethiopia

Soil conservation -- Ethiopia