SFB564-C4.2: Impact of intensification on land use dynamics and environmental services of tropical mountainous watersheds

Status: abgeschlossen
Projektbeginn: 01.07.2009
Projektende: 30.06.2012
Projekt-Homepage: https://sfb564.uni-hohenheim.de/83666.html

Beschreibung

Background

Upland areas in northern Vietnam and Thailand have recently experienced a rapid population increase and shift from subsistence to market-oriented production. As a result, agriculture in these mountainous areas intensified, associated with deforestation and replacement of traditional fallow systems by permanent cultivation with annual crops. The decreased ground cover results in increased erosion in the uplands and sedimentation in the lowlands. The overall goal of subproject C4 is to assess the impact of this intensifying land use on productivity of agro-ecosystems and on environmental services.

Objectives

Subproject C4 aims at assessing (i) dynamics of landscape upland-lowland C and N flows under current land use and (ii) how past land use intensification has changed the spatial distribution of soil fertility and potential crop productivity, (iii) validating the Land Use Impact Assessment (LUCIA) model for watersheds varying in land use intensity, and (iv) evaluating the impact of land use change scenarios on agricultural production systems along gradients of resource availability. Main focus of model application is to use LUCIA on different biophysical conditions of the watersheds in the study areas, and thus assess the effects of alternative land use scenarios. The way, however, farmers decide between these alternative land use options depends not only on biophysical conditions, but also on socio-economic factors and policies. This is why the biophysical LUCIA model has been linked to the Mathematical Programming Multi Agent System, MP-MAS, from subproject G1. For catchments with less detailed socio-economic field data, LUCIA-CHOICE will be developed, a submodule that simulates decision-making based on farmers’ cropping rules. Further submodules to be added include erosion/sedimentation, natural plant succession and an enhanced version of soil carbon stocks and flows.

Beteiligte Personen

Vietnam: Assc. Prof. Dr. Tran Duc Vien, Dr. Nguyen Thanh Lam Tahiland: Assc. Prof. Dr. Attachai Jintrawet, Assc. Prof. Prasit Wangpakapattanawong

Beteiligte Einrichtungen

Hanoi University of Agriculture, Hanoi, Vietnam Chiang Mai University, Chiang Mai, Thailand

Förderer

Deutsche Forschungsgemeinschaft

Publikationen im Rahmen des Projekts

Quantifying uncertainty on sediment loads using bootstrap confidence intervals
2017: Johanna I. F. Slaets, Hans-Peter Piepho, Petra Schmitter, Thomas Hilger, and Georg Cadisch
Linking spatio-temporal variation of crop response with sediment deposition along paddy rice terraces
2011: Schmitter, P., G. Dercon, T. Hilger, M. Hertel, J. Treffner, N. Lam, T. Duc Vien, G. Cadisch
Why do people not learn from flood disasters? Evidence from Vietnam’s northwestern mountains
2012: Schad, I,, P. Schmitter, A. Neef, C. Saint-Macary, M. Lamers, L. Nguyen, T. Hilger, V. Hoffmann
Redistribution of carbon and nitrogen through irrigation in intensively cultivated mountainous regions
2012: Schmitter, P., Fröhlich, H., Dercon, G., Hilger, T., Huu Thanh, N., Duc Vien, T., Cadisch, G.
Water and Matter Flows in Mountainous Watersheds of Southeast Asia: Processes and Implications for Management (Chapter 3)
2013: H. L. Fröhlich, J. Ingwersen, P. Schmitter, M. Lamers, T. Hilger
Soil Conservation on Sloping Land: Technical Options and Adoption Constraints
2013: Hilger T, Keil A, Lippe M, Panomtaranichagul M, Saint-Macary C, Zeller M, Pansak W, Dinh TV, Cadisch G
A software coupling approach to assess low-cost soil conservation strategies for highland agriculture in Vietnam
2013: Marohn, C., Schreinemachers, P., Quang, D. V., Berger, T., Siripalangkanont, P., Nguyen, T. T., Cadisch, G.
Nitrogen recovery and downslope translocation in maize hillside cropping as affected by soil conservation.
2014: Tuan, V. D., Hilger, T., Vien, T.D., Cadisch, G.
Mitigation potential of soil conservation in maize cropping on steep slopes
2014: Tuan VD, Hilger T, MacDonald L, Clemens G, Shiraishi E, Vien TD, Stahr K, Cadisch G
Evaluating a spatially-explicit and stream power-driven erosion and sediment deposition model in Northern Vietnam
2014: Lippe, M., Marohn, C., Hilger, T., Dung, N.V., Vien, T. D., and Cadisch, G.
A turbidity-based method to continuously monitor sediment, carbon and nitrogen flows in mountainous watersheds
2014: Slaets J. I.F., Schmitter, P., Hilger, T., Lamers, M., Piepho, H-P., Vien, T.D., Cadisch, G.
Identifying resource competition in maize based soil conservation systems using 13C and 15N isotopic discrimination
2015: Vu Dinh Tuan, Thomas Hilger, Georg Cadisch
Sediment trap efficiency of paddy fields at the watershed scale in a mountainous catchment in Northwest Vietnam
2016: Slaets, J. I. F. , P. Schmitter, T. Hilger, T. D. Vien, G. Cadisch
Simulating Stakeholder-Based Land-Use Change Scenarios and their Implication on Above-Ground Carbon and Environmental Management in Northern Thailand
2017: M. Lippe, T. Hilger, S. Sudchalee, N. Wechpibal, A. Jintrawet and G. Cadisch
Building on qualitative datasets and participatory processes to simulate land use change in a mountain watershed of Northwest Vietnam
2011: Lippe, M., Thai Minh, T., Neef. A., Hilger, T., Hoffmann, V., Lam, N. T., Cadisch, G.