ABSTRACT
Identifying priority areas for conservation is an effective measurement for the sustainable provision of ecosystem services (ESs) under threats globally. Although many approaches have been developed to identify conservation priority areas by combining supply and demand of ESs, the integration of ESs flows into the identification still need further exploration. For ESs like freshwater supply services, the processes of freshwater flows across multiple scales are crucial. This study aimed to propose a new study framework to identify priority areas for freshwater supply conservation by integrating the multi-scale (i.e., sub-watershed, tributary, and mainstream) freshwater flows, using the Yangtze River Delta as the study area. The results suggested that spatial mismatches between the supply and demand of freshwater supply services existed at different scales. There were approximately 129, 58, and 55 pairs of freshwater flows in sub-watersheds, tributaries, and mainstreams, respectively, which transported 5.98 × 1010 m3, 2.07 × 1010 m3 and 2.50 × 1010 m3 of freshwater. The results of multi-scale freshwater flows were integrated into conservation target goals, and the identified priority areas for freshwater supply conservation were selected at three scales. The priority areas selected at the sub-watershed scale were the largest. Compared with the traditional method of identifying priority areas without considering freshwater flows, the priority areas identified in this study included both sites with a high supply capacity and sites with a relatively low supply capacity, as they were significant for meeting the local freshwater demand. The increasing understanding of freshwater flows and the integration of the flows for the identification of priority areas for freshwater supply conservation are important for the development of more practical and rational policies or ecological management for the sustainable conservation of ESs.
Subject(s)
Conservation of Natural Resources , Ecosystem , Conservation of Natural Resources/methods , Fresh Water , Rivers , ChinaABSTRACT
Resumen:La estimación de la densidad de fauna silvestre permite tener una idea del estado de salud de las poblaciones y en algunos casos indica el estado de conservación de los ecosistemas. Los métodos de evaluación deben hacer estimaciones no sesgadas, ya que servirán de base para estrategias de conservación de especies clave. Algunas regiones en México han sido identificadas como áreas de alta prioridad para la conservación de especies con cierto nivel de riesgo, como es la Península de Yucatán (PY), donde prevalece la mayor población de jaguares en México. Sin embargo, poco se sabe acerca de la situación actual de los felinos amenazados y en peligro de extinción, como un grupo de especies que conviven en la parte noreste de la Península. Nuestro objetivo fue estimar la densidad de las poblaciones de felinos silvestres a mediano plazo en la Reserva Ecológica El Edén (EEER) y sus alrededores. Se llevaron a cabo muestreos con cámaras-trampa durante cuatro años (2008, 2010, 2011 y 2012), se usaron modelos de captura-recaptura para poblaciones cerradas (CAPTURA + MMDM o VMMDM) y un modelo de C-R espacial-mente explícito (CERC) por medio del paquete SPCACAP para realizar las estimaciones de densidad. Las especies estudiadas fueron: jaguar (Panthera onca),puma (Puma concolor),ocelote (Leopardus pardalis),jaguarundi (Puma yaguaroundi)y tigrillo (Leopardus wiedii).La frecuencia de captura se obtuvo para las cinco especies y la densidad para tres (individuos/100km2). La densidad estimada por medio de MMDM varió entre 1.2 y 2.6 para jaguares, pumas (1.7-4.3) y ocelotes (1.4-13.8). Las estimaciones de la densidad en SPACECAP variaron desde 0.7 hasta 3.6 para jaguares, de 1.8 a 5.2 para pumas y de 2.1 a 5.1 en ocelotes. El método de C-R espacialmente explícito (SECR, SPACECAP) tiene menos probabilidades de sobrestimar la densidad, lo que provee una herramienta útil en el proceso de planificación y toma de decisiones para la conservación de estas especies. La parte noreste de la Península de Yucatán mantiene poblaciones altas de felinos, la REEE y sus alrededores son clave para la conservación de este grupo de depredadores.
Abstract:Wildlife density estimates provide an idea of the current state of populations, and in some cases, reflect the conservation status of ecosystems, essential aspects for effective management actions. In Mexico, several regions have been identified as high priority areas for the conservation of species that have some level of risk, like the Yucatan Peninsula (YP), where the country has the largest population ofjaguars. However, little is known about the current status of threatened and endangered felids, which coexist in the Northeastern portion of the Peninsula. Our objective was to estimate the wild cats' density population over time at El Eden Ecological Reserve (EEER) and its surrounding areas. Camera trap surveys over four years (2008, 2010, 2011 and 2012) were conducted, and data were obtained with the use of capture-recapture models for closed populations (CAPTURE + MMDM or 'V MMDM), and the spatially explicit capture-recapture model (SPACECAP). The species studied were jaguar (Panthera onca),puma (Puma concolor),ocelot (Leopardus pardalis),jaguarundi (Puma yaguaroundi)and margay (Leopardus wiedii).Capture frequency was obtained for all five species and the density for three (individuals/100km2). The density estimated with The Mean Maximum Distance Moved (MMDM), CAPTURE, ranged from 1.2 to 2.6 for jaguars, from 1.7 to 4.3 for pumas and from 1.4 to 13.8 for ocelots. The density estimates in SPACECAP ranged from 0.7 to 3.6 for jaguars, from 1.8 to 5.2 for pumas and 2.1 to 5.1 for ocelots. Spatially explicit capture recapture (SECR) methods in SPACECAP were less likely to overestimate densities, making it a useful tool in the planning and decision making process for the conservation of these species. The Northeastern portion of the Yucatan Peninsula maintains high populations of cats, the EEER and its surrounding areas are valuable sites for the conservation of this group of predators.
