Cultivating resilient landscapes - opportunities for restoring degraded and vulnerable lands with agroforestry systems
Paper in proceeding, 2014

Shifts in global land use have led to loss of biodiversity, land degradation and declines in ecosystem services. In many geographical areas the deterioration is currently at a near catastrophic scale and the impact is huge, both in terms of food production and deforestation. If managed correctly ecological restoration can offer a chance to reverse environmental degradation as well as help mitigating climate change. This study identifies such opportunities by analysing how an expansion of agroforestry management onto degraded land may restore productivity and ecosystem services. Using reforestation as a restoration alternative has been widely recognized, however, the provision of ecosystem services may be limited. In contrast, agroforestry offers the possibility to generate a wide variety of both environmental and socioeconomic benefits, and through that also a higher potential of success. With a combination of qualitative and quantitative approaches the project captures a broad spectrum of drivers of degradation as well as possibilities to overcome obstacles that hinders restoration. The study includes a comprehensive assessment of opportunities and risks associated with ecological restoration of degraded land. More specifically, the aim of the study is to propose practical solutions for restoration of degraded land with a focus on multiple ecosystem services. The results and recommendations will be based on comparative field research from Sri Lanka and Vietnam. The presentation will be well in line with the conference theme of land transformation on a local level with potential impact on a larger scale. The session will benefit from this multidisciplinary field based case studies with examples of how degraded land can be rehabilitated aiming for climate change adaptation and mitigation.

Author

Matilda Palm

Chalmers, Energy and Environment, Physical Resource Theory

Eskil Mattsson

Chalmers, Energy and Environment, Physical Resource Theory

Proceedings of the Global Land Project 2nd Open Science Meeting, Berlin, March 19-21, 2014

528-

Driving Forces

Sustainable development

Subject Categories

Environmental Sciences related to Agriculture and Land-use

Horticulture

Physical Geography

Areas of Advance

Energy

Life Science Engineering (2010-2018)

Roots

Basic sciences

More information

Created

10/7/2017