Remote Sensing in Support of Transforming Smallholder Agriculture
A special issue of Remote Sensing (ISSN 2072-4292). This special issue belongs to the section "Remote Sensing in Agriculture and Vegetation".
Deadline for manuscript submissions: closed (31 January 2019) | Viewed by 32889
Special Issue Editors
Interests: large-scale geodata applications; formal methods to system design; international development; food production systems; space-time applications
2. Program Scientist, GEOGLAM Secretariat
Interests: application of satellite information for agricultural monitoring at national to global scales, with a focus on the transition of viable EO based research into operational systems
Special Issue Information
Dear Colleagues,
Among the 17 UN Sustainable Development Goals, the first three, No Poverty, Zero Hunger, and Good Health and Well-Being, are related to food production, the world’s largest sector, as measured by labor force. This sector is so large because, in many smallholder farming settings, agriculture is not mechanized and it is therefore labor-intensive. Most of the 570 million farms globally are family-operated; these families operate on three quarters of the planet’s agricultural lands. A vast 83% of these farms is run by smallholders, on lands less than two hectares in size. Moreover, longer-term demographic projections for Africa and Asia identify smallholder-dominated landscapes as the more food-insecure and indicate expected substantial dynamics in the food sector at the rural/urban interface.
Long-term food security in smallholder landscapes, thus, requires careful policy formulation and action planning at different levels of the food system governance pyramid. Reliable information in support of such is, however, scarce or comes late, and is often only qualitative in character. It has long been recognized that earth observation can help in defining and implementing the monitoring systems required, and much work has been done in that direction. Some of the information needs can be addressed through Earth observation approaches. The challenges, however, are huge: compared to industrial food production systems, smallholder farming is extremely diverse in appearance, due to variability in the use of inputs (sensu lato), in its goals, and in the use of applied farming methods. This high diversity makes monitoring from the skies, while utterly needed, also seriously problematic.
Recent technical and methodical developments are providing hope for breakthroughs. New sensor systems are providing new and richer data types (spatial, temporal, spectral, active/passive), the mobile-and-sensor era has resulted in novel ground data collection tools, and advances in computing (AI-based) are also allowing us to do more with that data. All of these developments present realistic options to identify and quantify crop types, crop acreage, cropping systems, farming practices, and crop calendars, yields and yield variability. Mapping crop stress factors has also become a more viable option, that may lead to operational systems at some stage.
We are thus inviting authors and research teams to publish their recent work in the area of Earth observation and smallholder farming systems, and we are especially excited to receive contributions that report on good examples of methods that work. Our specific interests are in the domains of multi-scale approaches (from farm to government), multi-sensor and data fusion methods (incl. satellite constellations), novel image analytics, portability of earth observation-based methods, and approaches to improve field delineations from image sources.
We invite papers on the following non-exhaustive list of topics around smallholder farming:
- Remote sensing-based indicators in support of monitoring smallholder food production systems
- Operational systems in support of monitoring smallholder farming
- Transformational changes in Earth observation systems and their impact in smallholder monitoring
- Multi-scale approaches (from farm to government), multi-sensor and data fusion methods (incl. satellite constellations)
- Novel image analytics, especially in the domains of crop, cropping system and farm practices identification
- Portability of Earth observation-based methods
- Approaches for automated field boundary detection
Dr. Rolf A. de By
Dr. Inbal Becker-Reshef
Dr. Urs Schulthess
Guest Editors
Manuscript Submission Information
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