Description
Contemporary grasslands all exist as complex adaptive systems, specifically complex social-ecological systems – whether these are in protected areas or are part of private or communal agricultural landscapes. These systems are subject to the current planetary condition that includes rapidly growing human populations and demand for natural resources, the widespread use of pollutants, and climate change consequences. All complex adaptive systems have characteristics in common - they comprise multiple elements, which interact, and the multiple interactions cause intersecting feedback loops. As a result, a current system condition reflects its history, future condition is difficult to predict, and interventions have unpredictable outcomes – some positive others negative. The system itself produces emergent properties – new characteristics - through time, out of the multiple element interactions. As complex social-ecological systems, grasslands have all the interactive complexity of both society and ecosystems. This paper uses place-based landscape restoration interventions in the grasslands of the Tsitsa River Catchment, South Africa, and the Lake Tana basin, Ethiopia, to showcase the development and application of the Adaptive Systemic Approach – which we present as an advance in participatory sustainability science.
Included in
Agricultural Science Commons, Agronomy and Crop Sciences Commons, Plant Biology Commons, Plant Pathology Commons, Soil Science Commons, Weed Science Commons
Applying the Transdisciplinary Adaptive Systemic Approach to Securing the Long-Term Future of Grassland Ecosystems
Contemporary grasslands all exist as complex adaptive systems, specifically complex social-ecological systems – whether these are in protected areas or are part of private or communal agricultural landscapes. These systems are subject to the current planetary condition that includes rapidly growing human populations and demand for natural resources, the widespread use of pollutants, and climate change consequences. All complex adaptive systems have characteristics in common - they comprise multiple elements, which interact, and the multiple interactions cause intersecting feedback loops. As a result, a current system condition reflects its history, future condition is difficult to predict, and interventions have unpredictable outcomes – some positive others negative. The system itself produces emergent properties – new characteristics - through time, out of the multiple element interactions. As complex social-ecological systems, grasslands have all the interactive complexity of both society and ecosystems. This paper uses place-based landscape restoration interventions in the grasslands of the Tsitsa River Catchment, South Africa, and the Lake Tana basin, Ethiopia, to showcase the development and application of the Adaptive Systemic Approach – which we present as an advance in participatory sustainability science.
