Detecting and predicting forest degradation: A comparison of ground surveys and remote sensing in Tanzanian forests

Ahrends, Antje, Bulling, Mark T., Platts, Philip J., Swetnam, Ruth, Ryan, Casey, Doggart, Nike, Hollingsworth, Peter M., Marchant, Robert, Balmford, Andrew, Harris, David J., Gross‐Camp, Nicole, Sumbi, Peter, Munishi, Pantaleo, Madoffe, Seif, Mhoro, Boniface, Leonard, Charles, Bracebridge, Claire, Doody, Kathryn, Wilkins, Victoria, Owen, Nisha, Marshall, Andrew R., Schaafsma, Marije, Pfliegner, Kerstin, Jones, Trevor, Robinson, James, Topp‐Jørgensen, Elmer, Brink, Henry and Burgess, Neil D. (2021) Detecting and predicting forest degradation: A comparison of ground surveys and remote sensing in Tanzanian forests. Plants, People, Planet, 3 (3). pp. 268-281. ISSN 2572-2611

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Abstract

Large areas of tropical forest are degraded. While global tree cover is being mapped with increasing accuracy from space, much less is known about the quality of that tree cover. Here we present a field protocol for rapid assessments of forest condition. Using extensive field data from Tanzania, we show that a focus on remotely-sensed deforestation would not detect significant reductions in forest quality. Radar-based remote sensing of degradation had good agreement with the ground data, but the ground surveys provided more insights into the nature and drivers of degradation. We recommend the combined use of rapid field assessments and remote sensing to provide an early warning, and to allow timely and appropriately targeted conservation and policy responses. Summary: Tropical forest degradation is widely recognised as a driver of biodiversity loss and a major source of carbon emissions. However, in contrast to deforestation, more gradual changes from degradation are challenging to detect, quantify and monitor. Here, we present a field protocol for rapid, area-standardised quantifications of forest condition, which can also be implemented by non-specialists. Using the example of threatened high-biodiversity forests in Tanzania, we analyse and predict degradation based on this method. We also compare the field data to optical and radar remote-sensing datasets, thereby conducting a large-scale, independent test of the ability of these products to map degradation in East Africa from space. Our field data consist of 551 ‘degradation’ transects collected between 1996 and 2010, covering >600 ha across 86 forests in the Eastern Arc Mountains and coastal forests. Degradation was widespread, with over one-third of the study forests—mostly protected areas—having more than 10% of their trees cut. Commonly used optical remote-sensing maps of complete tree cover loss only detected severe impacts (≥25% of trees cut), that is, a focus on remotely-sensed deforestation would have significantly underestimated carbon emissions and declines in forest quality. Radar-based maps detected even low impacts (<5% of trees cut) in ~90% of cases. The field data additionally differentiated types and drivers of harvesting, with spatial patterns suggesting that logging and charcoal production were mainly driven by demand from major cities. Rapid degradation surveys and radar remote sensing can provide an early warning and guide appropriate conservation and policy responses. This is particularly important in areas where forest degradation is more widespread than deforestation, such as in eastern and southern Africa.

Item Type: Article
Uncontrolled Keywords: east africa,biodiversity conservation,carbon emissions,community-based forest management,global forest watch,human disturbance,synthetic aperture radar,village land forest reserves,ecology, evolution, behavior and systematics,plant science,forestry,horticulture ,/dk/atira/pure/subjectarea/asjc/1100/1105
Faculty \ School: Faculty of Social Sciences > School of International Development
Related URLs:
Depositing User: LivePure Connector
Date Deposited: 03 Jun 2021 14:25
Last Modified: 22 Aug 2021 00:06
URI: https://ueaeprints.uea.ac.uk/id/eprint/80199
DOI: 10.1002/ppp3.10189

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