Mike Engels scite author profile

The widely distributed 241 lakes in the semiarid region of China bordering the Asian Gobi desert provide an irreplaceable environment for the region's human inhabitants, livestock, and wildlife. Using satellite imagery, we tracked the changing areas of lake water and freshwater/salty marshes during the last four decades and correlated observed changes with concurrent temperature and precipitation. On average, most of the lake size groups across different subregions showed a reduction in area from the 1970s to 2000s, particularly from the 1990s to 2000s (P < 0.05); 121 of the 241 lakes became fully desiccated at the end of the 2000s. Our results confirmed the prevalence of drought-induced lake shrinkage and desiccation at a regional scale, which has been sustained since the year 2000, and highlighted an accelerated shrinkage of individual lakes by human water use in the agriculture-dominated regions. Lake waters have become salinized, and freshwater marsh has been replaced by salty marsh, threatening the populations of endangered waterfowl species such as the red-crowned crane as well as the aquatic ecosystem. Although the dry lakebeds are a potential source of dust, the establishment of salty marsh on bare lake beds could have partially reduced dust release due to the increase in vegetation cover.

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Sensing through the continent: Towards monitoring migratory birds using cellular sensor networks

Anthony

Bennett

Vuran

et al. 2012

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This paper presents CraneTracker, a novel sensor platform for monitoring migratory birds. The platform is designed to monitor Whooping Cranes, an endangered species that conducts an annual migration of 4, 000 km between southern Texas and north-central Canada. CraneTracker includes a rich set of sensors, a multi-modal radio, and power control circuitry for sustainable, continental-scale information delivery during migration. The need for large-scale connectivity motivates the use of cellular technology in low-cost sensor platforms augmented by a low-power transceiver for ad-hoc connectivity. This platform leads to a new class of cellular sensor networks (CSNs) for time-critical and mobile sensing applications. The CraneTracker is evaluated via field tests on Wild Turkeys, Siberian Cranes, and an on-going alpha deployment with wild Sandhill Cranes. Experimental evaluations demonstrate the potential of energy-harvesting CSNs for wildlife monitoring in large geographical areas, and reveal important insights into the movements and behaviors of migratory animals. In addition to benefiting ecological research, the developed platform is expected to extend the application domain of sensor networks and enable future research applications.

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Sensing through the continent

Anthony

Bennett

Vuran

et al. 2012

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Refining reintroduction of whooping cranes with habitat use and suitability analysis

et al. 2014

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A successful species reintroduction depends, in part, on the correct identification of suitable habitats. In cases where a species has been extirpated from a region for decades, however, this task is fraught with uncertainty. Uncertainty can be minimized and adjusted for by monitoring and adaptive management. The central goal of this study was to identify reintroduction sites that facilitate dispersion of whooping cranes (Grus americana), a federally listed endangered species, into optimal habitat as quickly as possible. First, we described the habitat selection of breeding home ranges for reintroduced whooping cranes in and around Necedah National Wildlife Refuge of central Wisconsin. We defined home ranges as 95% fixed spatial kernel density estimates from location data gathered from nesting whooping cranes from April through July 2005–2010. Whooping crane home ranges contained more emergent herbaceous wetlands than expected by chance and less developed or barren land, forest, and scrubland. Breeding whooping crane home ranges usually were composed of distinct nesting territories and off‐territory elements; when moving off‐territory, cranes decreased wetland selection and increased selection for open uplands. Second, we used habitat composition values and strength of selection (as determined by Jacob's index) to create a habitat suitability map to identify potential habitats that breeding whooping cranes could use in unoccupied eastern Wisconsin. With this method, we identified 2 large suitable wetland complexes within our study area associated with the Fox and Rock Rivers. Based on this analysis, the Whooping Crane Eastern Partnership began releasing whooping cranes into White River Marsh State Wildlife Area and Horicon National Wildlife Refuge in 2011. © 2014 The Wildlife Society.

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Mike Engels

Disappearing Lakes in Semiarid Northern China: Drivers and Environmental Impact

Sensing through the continent: Towards monitoring migratory birds using cellular sensor networks

Sensing through the continent

Refining reintroduction of whooping cranes with habitat use and suitability analysis

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