Kooperativer Bibliotheksverbund

UID:

Format: 271 S. , Ill., graph. Darst., Kt. , 21 cm

ISBN: 9783832517540

Note: Zugl.: London, Univ., Diss, 2004

Language: English

Keywords: Jornada Basin ; Geoökosystem ; Mathematisches Modell ; Hochschulschrift ; Hochschulschrift

UID:

Format: XI, 389 p. , online resource.

ISBN: 9789400757271

Content: Land degradation in drylands is a multi-faceted problem. Consequently, current management approaches that attempt to mitigate such land degradation often fail to produce significant improvements. The processes associated with land degradation in drylands fall at the interface of ecology and geomorphology. For a better understanding of this degradation, there is a need to uncover the underlying dynamics and characteristic responses to environmental drivers and human-induced disturbances. A primary characteristic of this land degradation is a change in processes and the emergence of patterns; but there remain many unknowns as to how these changing processes and emerging patterns are connected. In the first section of this keystone manual, the theory of ecogeomorphic pattern-process linkages is explored, establishing an integrated view of current concepts of pattern emergence and self-organization from an ecogeomorphic perspective.  The second section of the book explores methods for confronting models with data for the study of pattern-process linkages, bringing together divergent empirical and modelling methodologies to provide a fully integrated understanding of land degradation in drylands. Four case studies from drylands in Europe, Africa, Australia and North America outline the advances in ecogeomorphic research that have been made in these systems. Learning from this diverse range of studies and approaches, a research agenda for the emerging field of ecogeomorphology in land-degradation studies in drylands is set forth.

Note: Preface -- 1. Land Degradation in Drylands: An Ecogeomorphological Approach -- 2. The Study of Land Degradation in Drylands: State of the Art -- 3. Resilience, Self-organization, Complexity and Pattern Formation -- 4. Short-range Ecogeomorphic Processes in Dryland Systems -- 5. Long-range Ecogeomorphic Processes -- 6. Integrating Short- and Long-range Processes into Models: the Emergence of Pattern -- 7. Approaches to Modelling Ecogeomorphic Systems -- 8. Characterizing Patterns -- 9. Assessment of Patterns in Ecogeomorphic Systems -- 10. Uncertainty assessment -- 11. Vegetation Change in the Southwestern USA: Patterns and Processes -- 12. Vegetation Mosaics of Arid Western New South Wales, Australia: Considerations of Their Origin and Persistence -- 13.  Case Study of Self-organized Vegetation Patterning in Dryland Regions of Central Africa -- 14.  Abandonment of Agricultural Land, Agricultural Policy and Land Degradation in Mediterranean Europe -- 15. Land Degradation in Drylands: Reёvaluating Pattern-process Interrelationships and the Role of Ecogeomorphology -- Index.

In: Springer eBooks

Additional Edition: Printed edition: ISBN 9789400757264

Language: English

Subjects: Agriculture, Forestry, Horticulture, Fishery, Domestic Science

Keywords: Aufsatzsammlung

DOI: 10.1007/978-94-007-5727-1

URL: http://dx.doi.org/10.1007/978-94-007-5727-1

URL: Volltext

URL: Volltext  (lizenzpflichtig)

URL: Cover

UID:

In: Hydrologie und Wasserbewirtschaftung. - 58(2014)4, S. 221-240

UID:

Format: 224 S. , Ill., graph. Darst., Kt.

Note: Enth. 10 Publ , Potsdam, Univ., Habil.-Schr., 2014

Language: English

Keywords: Starkregen ; Bodenerosion ; Wassergüte ; Ökosystem ; Wechselwirkung ; Landnutzung ; Wandel ; Landnutzung ; Wandel ; Nachhaltigkeit ; Bodenerosion ; Ablagerung ; Reduktion ; Hydrologie ; Ökosystem ; Modellierung ; Degradation ; Degradation ; Erforschung ; Weiterentwicklung ; Geomorphologie ; Ökologie ; Kombination ; Hochschulschrift

URL: Inhaltsverzeichnis

Author information: Müller, Eva Nora 1975-

UID:

Format: 1 Online-Ressource (xi, 124 Blätter) , Illustrationen

Content: The Brazilian Cerrado is recognised as one of the most threatened biomes in the world, as the region has experienced a striking change from natural vegetation to intense cash crop production. The impacts of rapid agricultural expansion on soil and water resources are still poorly understood in the region. Therefore, the overall aim of the thesis is to improve our understanding of the ecohydrological processes causing water and soil degradation in the Brazilian Cerrado. I first present a metaanalysis to provide quantitative evidence and identifying the main impacts of soil and water alterations resulting from land use change. Second, field studies were conducted to (i) examine the effects of land use change on soils of natural cerrado transformed to common croplands and pasture and (ii) indicate how agricultural production affects water quality across a meso-scale catchment. Third, the ecohydrological process-based model SWAT was tested with simple scenario analyses to gain insight into the impacts of land use and climate change on the water cycling in the upper São Lourenço catchment which experienced decreasing discharges in the last 40 years. Soil and water quality parameters from different land uses were extracted from 89 soil and 18 water studies in different regions across the Cerrado. Significant effects on pH, bulk density and available P and K for croplands and less-pronounced effects on pastures were evident. Soil total N did not differ between land uses because most of the cropland sites were N-fixing soybean cultivations, which are not artificially fertilized with N. By contrast, water quality studies showed N enrichment in agricultural catchments, indicating fertilizer impacts and potential susceptibility to eutrophication. Regardless of the land use, P is widely absent because of the high-fixing capacities of deeply weathered soils and the filtering capacity of riparian vegetation. Pesticides, however, were consistently detected throughout the entire aquatic system. In several case studies, extremely high-peak concentrations exceeded Brazilian and EU water quality limits, which pose serious health risks. My field study revealed that land conversion caused a significant reduction in infiltration rates near the soil surface of pasture (–96 %) and croplands (–90 % to –93 %). Soil aggregate stability was significantly reduced in croplands than in cerrado and pasture. Soybean crops had extremely high extractable P (80 mg kg–1), whereas pasture N levels declined. A snapshot water sampling showed strong seasonality in water quality parameters. Higher temperature, oxi-reduction potential (ORP), NO2–, and very low oxygen concentrations (〈5 mg•l–1) and saturation (〈60 %) were recorded during the rainy season. By contrast, remarkably high PO43– concentrations (up to 0.8 mg•l–1) were measured during the dry season. Water quality parameters were affected by agricultural activities at all sampled sub-catchments across the catchment, regardless of stream characteristic. Direct NO3– leaching appeared to play a minor role; however, water quality is affected by topsoil fertiliser inputs with impact on small low order streams and larger rivers. Land conversion leaving cropland soils more susceptible to surface erosion by increased overland flow events. In a third study, the field data were used to parameterise SWAT. The model was tested with different input data and calibrated in SWAT-CUP using the SUFI-2 algorithm. The model was judged reliable to simulate the water balance in the Cerrado. A complete cerrado, pasture and cropland cover was used to analyse the impact of land use on water cycling as well as climate change projections (2039–2058) according to the projections of the RCP 8.5 scenario. The actual evapotranspiration (ET) for the cropland scenario was higher compared to the cerrado cover (+100 mm a–1). Land use change scenarios confirmed that deforestation caused higher annual ET rates explaining partly the trend of decreased streamflow. Taking all climate change scenarios into account, the most likely effect is a prolongation of the dry season (by about one month), with higher peak flows in the rainy season. Consequently, potential threats for crop production with lower soil moisture and increased erosion and sediment transport during the rainy season are likely and should be considered in adaption plans. From the three studies of the thesis I conclude that land use intensification is likely to seriously limit the Cerrado’s future regarding both agricultural productivity and ecosystem stability. Because only limited data are available for the vast biome, we recommend further field studies to understand the interaction between terrestrial and aquatic systems. This thesis may serve as a valuable database for integrated modelling to investigate the impact of land use and climate change on soil and water resources and to test and develop mitigation measures for the Cerrado in the future

Note: Dissertation Universität Potsdam, Mathematisch-Naturwissenschaftliche Fakultät 2015

Additional Edition: Erscheint auch als Druckausgabe Hunke, Philip The Brazilian Cerrado Potsdam, 2015

Language: English

Keywords: Hochschulschrift

URN: urn:nbn:de:kobv:517-opus4-85110

URL: Volltext

URL: Volltext

URL: https://nbn-resolving.org/urn:nbn:de:kobv:517-opus4-85110

URL: https://d-nb.info/1218399902/34

URL: kostenfrei

Author information: Müller, Eva Nora 1975-

UID:

Format: xi, 389 Seiten , Illustrationen, Diagramme, Karten

ISBN: 9789400757264 , 9789400757271

Series Statement: Environment

Content: "Land degradation in drylands is a multi-faceted problem. Consequently, current management approaches that attempt to mitigate such land degradation often fail to produce significant improvements. The processes associated with land degradation in drylands fall at the interface of ecology and geomorphology. For a better understanding of this degradation, there is a need to uncover the underlying dynamics and characteristic responses to environmental drivers and human-induced disturbances. A primary characteristic of this land degradation is a change in processes and the emergence of patterns; but there remain many unknowns as to how these changing processes and emerging patterns are connected. In the first section of this keystone manual, the theory of ecogeomorphic pattern-process linkages is explored, establishing an integrated view of current concepts of pattern emergence and self-organization from an ecogeomorphic perspective. The second section of the book explores methods for confronting models with data for the study of pattern-process linkages, bringing together divergent empirical and modelling methodologies to provide a fully integrated understanding of land degradation in drylands. Four case studies from drylands in Europe, Africa, Australia and North America outline the advances in ecogeomorphic research that have been made in these systems. Learning from this diverse range of studies and approaches, a research agenda for the emerging field of ecogeomorphology in land-degradation studies in drylands is set forth."--Page 4 of cover

Note: Literaturangaben

Language: English

Subjects: Agriculture, Forestry, Horticulture, Fishery, Domestic Science

Keywords: Trockengebiet ; Degradation ; Geomorphologie ; Ökologie ; Vegetation ; Aufsatzsammlung ; Aufsatzsammlung

Author information: Müller, Eva Nora 1975-

UID:

Format: 1 Online-Ressource (xi, 389 p. 100 illus., 57 illus. in color)

ISBN: 9789400757271

Additional Edition: Erscheint auch als Druckausgabe ISBN 978-94-007-5726-4

Language: English

Subjects: Agriculture, Forestry, Horticulture, Fishery, Domestic Science

Keywords: Trockengebiet ; Degradation ; Geomorphologie ; Ökologie ; Vegetation ; Aufsatzsammlung

DOI: 10.1007/978-94-007-5727-1

URL: Volltext

URL: Inhaltsverzeichnis

URL: Abstract

Author information: Müller, Eva Nora 1975-

UID:

Format: 224 S. : , Ill., graph. Darst., Kt.

Note: Enth. 10 Publ. , Potsdam, Univ., Habil.-Schr., 2015

Language: English

Keywords: Starkregen ; Bodenerosion ; Wassergüte ; Ökosystem ; Wechselwirkung ; Landnutzung ; Wandel ; Landnutzung ; Wandel ; Nachhaltigkeit ; Bodenerosion ; Ablagerung ; Reduktion ; Hydrologie ; Ökosystem ; Modellierung ; Degradation ; Erforschung ; Weiterentwicklung ; Geomorphologie ; Ökologie ; Kombination ; Hochschulschrift

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028194569&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

Author information: Müller, Eva Nora 1975-

UID:

Format: xi, 124 Blätter , Illustrationen

Content: The Brazilian Cerrado is recognised as one of the most threatened biomes in the world, as the region has experienced a striking change from natural vegetation to intense cash crop production. The impacts of rapid agricultural expansion on soil and water resources are still poorly understood in the region. Therefore, the overall aim of the thesis is to improve our understanding of the ecohydrological processes causing water and soil degradation in the Brazilian Cerrado. I first present a metaanalysis to provide quantitative evidence and identifying the main impacts of soil and water alterations resulting from land use change. Second, field studies were conducted to (i) examine the effects of land use change on soils of natural cerrado transformed to common croplands and pasture and (ii) indicate how agricultural production affects water quality across a meso-scale catchment. Third, the ecohydrological process-based model SWAT was tested with simple scenario analyses to gain insight into the impacts of land use and climate change on the water cycling in the upper São Lourenço catchment which experienced decreasing discharges in the last 40 years. Soil and water quality parameters from different land uses were extracted from 89 soil and 18 water studies in different regions across the Cerrado. Significant effects on pH, bulk density and available P and K for croplands and less-pronounced effects on pastures were evident. Soil total N did not differ between land uses because most of the cropland sites were N-fixing soybean cultivations, which are not artificially fertilized with N. By contrast, water quality studies showed N enrichment in agricultural catchments, indicating fertilizer impacts and potential susceptibility to eutrophication. Regardless of the land use, P is widely absent because of the high-fixing capacities of deeply weathered soils and the filtering capacity of riparian vegetation. Pesticides, however, were consistently detected throughout the entire aquatic system. In several case studies, extremely high-peak concentrations exceeded Brazilian and EU water quality limits, which pose serious health risks. My field study revealed that land conversion caused a significant reduction in infiltration rates near the soil surface of pasture (–96 %) and croplands (–90 % to –93 %). Soil aggregate stability was significantly reduced in croplands than in cerrado and pasture. Soybean crops had extremely high extractable P (80 mg kg–1), whereas pasture N levels declined. A snapshot water sampling showed strong seasonality in water quality parameters. Higher temperature, oxi-reduction potential (ORP), NO2–, and very low oxygen concentrations (〈5 mg•l–1) and saturation (〈60 %) were recorded during the rainy season. By contrast, remarkably high PO43– concentrations (up to 0.8 mg•l–1) were measured during the dry season. Water quality parameters were affected by agricultural activities at all sampled sub-catchments across the catchment, regardless of stream characteristic. Direct NO3– leaching appeared to play a minor role; however, water quality is affected by topsoil fertiliser inputs with impact on small low order streams and larger rivers. Land conversion leaving cropland soils more susceptible to surface erosion by increased overland flow events. In a third study, the field data were used to parameterise SWAT. The model was tested with different input data and calibrated in SWAT-CUP using the SUFI-2 algorithm. The model was judged reliable to simulate the water balance in the Cerrado. A complete cerrado, pasture and cropland cover was used to analyse the impact of land use on water cycling as well as climate change projections (2039–2058) according to the projections of the RCP 8.5 scenario. The actual evapotranspiration (ET) for the cropland scenario was higher compared to the cerrado cover (+100 mm a–1). Land use change scenarios confirmed that deforestation caused higher annual ET rates explaining partly the trend of decreased streamflow. Taking all climate change scenarios into account, the most likely effect is a prolongation of the dry season (by about one month), with higher peak flows in the rainy season. Consequently, potential threats for crop production with lower soil moisture and increased erosion and sediment transport during the rainy season are likely and should be considered in adaption plans. From the three studies of the thesis I conclude that land use intensification is likely to seriously limit the Cerrado’s future regarding both agricultural productivity and ecosystem stability. Because only limited data are available for the vast biome, we recommend further field studies to understand the interaction between terrestrial and aquatic systems. This thesis may serve as a valuable database for integrated modelling to investigate the impact of land use and climate change on soil and water resources and to test and develop mitigation measures for the Cerrado in the future

Note: Dissertation Universität Potsdam, Mathematisch-Naturwissenschaftliche Fakultät 2015

Additional Edition: Erscheint auch als Online-Ausgabe Hunke, Philip The Brazilian Cerrado Potsdam, 2015

Language: English

Keywords: Hochschulschrift

URL: Inhaltsverzeichnis

Author information: Müller, Eva Nora 1975-