Abstract
Increasingly, renewable energy comprises a larger share of global energy production. Across the western United States, public lands are being developed to support renewable energy production. Where there are conflicts with threatened or endangered species, translocation can be used in an attempt to mitigate negative effects. For the threatened Mojave desert tortoise (Gopherus agassizii), we sought to compare habitat- and space-use patterns between short-distance translocated, resident, and control groups. We tested for differences in home range size based on utilization distributions and used linear mixed-effects models to compare space-use intensity, while controlling for demographic and environmental variables. In addition, we examined mean movement distances as well as home range overlap between years and for male and female tortoises in each study group. During the first active season post-translocation, home range size was greater and space-use intensity was lower for translocated tortoises than resident and control groups. These patterns were not present in the second season. In both years, there was no difference in home range size or space-use intensity between control and resident groups. Translocation typically resulted in one active season of questing followed by a second active season characterized by space-use patterns that were indistinguishable from control tortoises. Across both years, the number of times a tortoise was found in a burrow was positively related to greater space-use intensity. Minimizing the time required for translocated tortoises to exhibit patterns similar to non-translocated individuals may have strong implications for conservation by reducing exposure to adverse environmental conditions and predation. With ongoing development, our results can be used to guide future efforts aimed at understanding how translocation strategies influence patterns of animal space use.
Highlights
Renewable energy generation from all sources, including solar and wind energy, as a proportion of all energy production stands at approximately 19%, has doubled in capacity over the past ten years [1]
Across the western United States, regions deemed highly suitable for renewable energy development tend to be some of the most ecologically sensitive and harbor many species of conservation concern [3, 4]
Tortoises classified as an unknown sex had midline carapace length (MCL) values that ranged from 67 to 165 mm.Across active seasons and groups, we obtained an average of 68.9 encounters (SD = 11.4) per individual with 63.5% of the encounters indicating tortoises were in burrows
Summary
Renewable energy generation from all sources, including solar and wind energy, as a proportion of all energy production stands at approximately 19%, has doubled in capacity over the past ten years [1]. Over the 30–40 years, growth in this sector will increase substantially as world-wide demand for renewable energy continues to grow [2]. Under ‘moderate’ growth projections, renewable energy production is expected to grow to 30–45% of all global energy production by 2050, with ‘high’ growth projections putting the proportion at 50–95% [2]. Across the western United States, regions deemed highly suitable for renewable energy development tend to be some of the most ecologically sensitive and harbor many species of conservation concern [3, 4]. Federal and state resource agencies are developing broad-scale plans, such as the Desert Renewable Energy Conservation Plan The Mojave desert of southern California (U.S.A.) is expected to experience increased land conversion to accommodate the solar power industry [5, 6]
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