A classification of maintenance practices for agricultural runoff management structures to enhance climate adaptation scenarios and strategies

Runoff management is crucial in preventing land degradation and addressing water scarcity. In particular, agricultural runoff management structures, such as ditches and terraces, ensure water drainage and routing, soil retention, and water harvesting, while providing multiple other services. Therefore, their integration into rural landscape management is critical to the resilience of agricultural systems. The abundant knowledge about structure design and abandonment consequences recognises maintenance's relevance, although these practices are still poorly described. Moreover, climate change further exacerbates the challenges. On the one hand, erratic weather patterns amplify soil erosion and flooding risks; on the other hand, droughts intensify structure fragility while increasing water harvesting needs. Indeed, the available literature is limited to maintenance barriers, such as farmers' restrained access to finance, infrastructure, and technical expertise, especially in top-down projects that overlook local and traditional knowledge. Altogether, climate adaptation scenarios often neglect the inclusion of maintenance practices and strategies due to the scarce available knowledge. This presentation proposes a classification framework integrating runoff management structures and their maintenance into farming practice systems and landscape management. Structures vary widely in shapes, systems, and nomenclature, reflecting local contexts. Adopting the ethnological concept of "technical fact", we grouped structures based on construction actions: ditching, shaping, and building. This facilitates the agronomic identification of the key practices for their in-field maintenance: (a) section cleaning (e.g. vegetation and sediment control), (b) shape renovation, and (c) structure repair. The framework also accounts for the structure's hydrological and ecological connectivity, thus integrating off-site effects and management. Considering the ecological, social, and technological interdependencies at the landscape level enables the multi-level assessment of the consequences of rainfall partitioning between runoff and infiltration and the related implications for landscape resilience to climate change.

Co-design of scenarios for the sustainable management of soil and water resources in rainfed agriculture

- work environment : The position will be based in Montpellier and attached to the "Laboratoire d'étude des Interactions Sol - Agrosystème - Hydrosystème" (joint research unit LISAH), with regular missions to Tunisia.

Decades of Empowering Landscape Regeneration: Transforming Policy and Finance Systems to Benefit People and Nature

  Date & Time: February 7th, 9-10:30 am ET Register here   Description: Join us for a groundbreaking webinar as EcoAgriculture Partners celebrates its 20th

Submission – LANDSCAPE 2024

UNESCO - Traditional irrigation: knowledge, technique, and organization

Traditional irrigation uses gravity and hand-made constructions such as channels and ditches to distribute water from naturally-occurring water catchment points (such as springs, streams and glaciers) to the fields. Practitioners choose specific days and periods to manually divert the water, and the beginning or end of the watering season is often accompanied by social gatherings and festivities. ...

Landscape Agronomy

This book provides an overview of landscape perspectives in agronomic research, for a stronger interface between agricultural science and landscape design.