Agricultural lands can provide suitable habitat for birds under some conditions. 25In particular, waterfowl sometimes rely on ricefields as nocturnal foraging habitat during 26 winter if post-harvest practices make food accessible. To assess whether the winter flooding 27 of ricefields could be a major driver of duck regional abundance in Europe, we relied on a 28 combination of spatial and temporal analyses. In the former, five of the most important 29western European rice growing regions in Spain, Italy and France were compared in terms of 30 habitat composition over the 2002-2012 period. The relative importance of natural wetlands 31 and ricefields (either dry or flooded) in determining the abundance of wintering ducks was 32 then established. In the second approach, the trends in duck numbers before and after 33 implementation of winter-flooding Agri-Environment Schemes (AES) were compared in two 34 of the study regions. Both approaches highlighted the role of winter ricefield flooding in 35 explaining wintering duck numbers and complementing the natural wetlands; flooding 36 harvested ricefields improves habitat attractiveness by enhancing food resource accessibility. 37In Europe, the proportion of ricefields flooded during winter varies considerably between 38 countries (0.17 to 62%), owing to differences in policy initiatives such as Agri-Environment 39Schemes. Promoting such schemes more widely across the European rice production area 40 could make a big difference in terms of waterfowl habitat quality at the scale of their 41 wintering range. 42
Many wetlands are characterized by a vegetation cover of variable height and density over time. Tracking spatio-temporal changes in inundation patterns of these wetlands remains a challenge for remote sensing. Water In Wetlands (WIW) was predicted using a dichotomous partitioning of reflectance values encoded based on ground-truth (n = 4038) and optical-space derived (n = 7016) data covering all land cover types (n = 17) found in the Rhône delta, southern France. The models were developed with spectral data from Sentinel 2, Landsat 7, and Landsat 8 sensors, hence providing a monitoring tool that covers a 35-year period (same sensor for Landsat 5 and 7). A single model combining the near infrared (NIR ≤ 0.1558 to 0.1804, depending on sensors) and short-wave infrared (SWIR2 ≤ 0.0871 to 0.1131) wavelengths was identified by three independent analyses, each one using a different satellite. Overall accuracy of water maps ranged from 89% to 94% for the training samples and from 90% to 94% for the validation samples, encompassing standard water indices that systematically underestimate flooding duration under vegetation cover. Sentinel 2 provided the highest performance with a kappa coefficient of 0.82 for both samples. Such tool will be most useful for monitoring the water dynamics of seasonal wetlands, which are particularly sensitive to climate change while providing multiple services to humankind. Considering the high temporal resolution of Sentinel 2 (every 5 days), cumulative water maps built with the WIW logical rule could further be used for mapping a wide range of wetlands which are either periodically or permanently flooded.
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Nous avons quantifié la surface de zones humides existant en Méditerranée, ainsi que leurs pertes au cours du siècle passé. Environ 18,5 millions d’hectares (± 3,5 millions) existaient vers l’an 2000, dont environ un quart de zones humides artificielles, principalement des réservoirs et des rizières. Les pertes sont estimées à environ 50 % au cours du XXe siècle. Les cartes d’occupation du sol tirées de CORINE Land-Cover ont aussi été utilisées, afin de tester si elles permettraient de suivre, à l’échelle requise, la surface totale, la surface par type de zones humides, et la perte de ces milieux.
The Ramsar Convention is the multilateral agreement aimed at protecting wetlands globally. Wetlands are particularly recognized for their role in the Mediterranean biodiversity hotspot by providing key habitats for endemic and migratory species, directly contributing benefits to the lives of people and being an integral part of their culture. In response to this importance, the Mediterranean Wetlands Observatory publishes Mediterranean Wetland Outlooks (MWOs) on the state and trends of Mediterranean wetlands; the first edition in 2012 (MWO1) and the second edition in 2018 (MWO2). In this paper, we used the results of the two Mediterranean Wetland Outlooks to highlight ways to increase the impact of the Ramsar Convention by identifying the spatial dimensions of detected biodiversity trends as well as the societal developments and estimated impacts of global change and protection status.
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