1beb4a82-9967-4e82-841e-3ad12725ffd6 http://ipt.pensoft.net/resource?r=mddbats mddbats Farah Carrasco-Rueda The Field Museo of Natural History Coordinator, Putumayo Biocultural Corridor
US
0000-0003-1686-2249
Diego J. Zavala Museo de Historia Natural Universidad Nacional de San Agustín Researcher
PE
0000-0002-9796-6287
Yolanda Alcarraz Centro de Ornitología y Biodiversidad (CORBIDI) Volunteer
PE
0000-0001-5739-9583
Luiggi Carrasco-Escudero Programa de Conservación de Murciélagos del Perú (PCMP) Member
PE
0000-0002-6621-7451
Hugo T. Zamora Museo de Historia Natural Universidad Nacional de San Agustín Researcher
PE
0000-0003-3824-3449
Farah Carrasco-Rueda The Field Museo of Natural History Coordinator, Putumayo Biocultural Corridor
US
farahcarrasco@gmail.com 0000-0003-1686-2249
2021-08-31 eng Records for Eumops maurus, Molossops temminckii, Molossus coibensis, Molossus alvarezi, and Thyroptera wynneae for Madre de Dios, Peru Occurrence Chiroptera Peru GBIF Dataset Type Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_type.xml Specimen GBIF Dataset Subtype Vocabulary: http://rs.gbif.org/vocabulary/gbif/dataset_subtype.xml This work is licensed under a Creative Commons Attribution Non Commercial (CC-BY-NC) 4.0 License. Records are located in the Department of Madre de Dios, Province of Tambopata, Districts of Laberinto, Las Piedras and Inambari -70.466 -68.621 -11.48 -13.411 2016-08-03 2016-11-06 notPlanned Farah Carrasco-Rueda The Field Museo of Natural History Coordinator, Putumayo Biocultural Corridor
US
0000-0003-1686-2249
For handling bats, we followed the guidelines provided by the American Society of Mammalogists (Sikes et al. 2016). All collected specimens were fixed in 10% formalin and then preserved in 70% ethanol. Voucher specimens were catalogued at the Centro de Ecología y Biodiversidad (CEBIO).The skulls were removed from the bodies for subsequent cleaning and fixation. All measurements were taken with digital calipers accurate to 0.01 mm. Each transect was sampled one night during each visit from 17:30 hrs. to 23:30 hrs. We set up ground level mist-nets (12 m x 3 m). We placed a total of 10 mist‐nets in L-shaped pairs in the forest interior and in agricultural land, while along the forest edge, we placed a total of 15 mist-nets in five sets of three nets in a “T” shape. For further details on sampling design, refer to Carrasco-Rueda and Loiselle (2020) and Carrasco-Rueda (2018). We did not sample during rainy nights or during two days before, the day of, and two days after a full moon to avoid possible effects on bat captures (Saldana-Vazquez and Munguia-Rosas 2013). We checked mist‐nets for bats every 30 min. Once released from mist‐nets, we placed the bats in individual cloth bags and took them to a temporary camp. Noteworthy records of bats (Mammalia, Chiroptera) from southeastern Peru Diego J. Zavala 0000-0002-9796-6287 author Yolanda Alcarraz 0000-0001-5739-9583 author Luiggi Carrasco-Escudero 0000-0002-6621-7451 author Hugo T. Zamora 0000-0003-3824-3449 author Farah Carrasco-Rueda 0000-0003-1686-2249 Based on recent bat surveys in the Department of Madre de Dios, Peru, we present distribution extension records for Thyroptera wynneae Velazco et. al., 2014, and Molossops temminckii (Burmeister, 1854), representing the southernmost records for those species in Peru; and records of Molossus alvarezi González-Ruiz et. al., 2011, representing the easternmost record for this species in the country. Moreover, we present new records for Eumops maurus (Thomas, 1901) and Molossus coibensis Allen, 1904. These records fill existing gaps in the knowledge of the distribution of these species in the Neotropics. The Lewis and Clark Fund for the Exploration and Field Research Grant by the American Philosophical Society, the Cleveland Zoological Society (CZS) and the Cleveland Metroparks Zoo (CMZ). We sampled bats in different locations along the Interoceanic Highway, Department of Madre de Dios, Peru. We captured bats at five different points located every 75 m along 300 m long transects. Transects were in agricultural land (i.e., papaya plantations or cattle pastures), forest interior, and at the forest edge.
2021-01-13T03:30:15.857+02:00 dataset Carrasco-Rueda F, Zavala D J, Alcarraz Y, Carrasco-Escudero L, Zamora H T (2021): mddbats. v1.3. Check List. Dataset/Occurrence. http://ipt.pensoft.net/resource?r=mddbats&v=1.3 Carrasco-Rueda F (2018) Land-use change and bat biodiversity: understanding patterns, drivers, and impacts of mitigation efforts. PhD dissertation, University of Florida, Gainesville, 205 pp. Carrasco-Rueda F, Loiselle BA (2020) Dimensions of phyllostomid bat diversity and assemblage composition in a tropical forest-agricultural landscape. Diversity 12(6): 238. https://doi.org/10.3390/d12060238 Saldana-Vazquez RA, Munguia-Rosas MA (2013) Lunar phobia in bats and its ecological correlates: A meta-analysis. Mammalian Biology 78(3): 216–219. https://doi.org/10.1016/j.mambio.2012.08.004 Sikes RS, The Animal Care and Use Committee of the American Society of Mammalogists (2016) 2016 Guidelines of the American Society of Mammalogists for the use of wild mammals in research and education. Journal of Mammalogy 97(3): 663–668. https://doi.org/10.1093/jmammal/gyw078 CEBIOMAS alcohol 1beb4a82-9967-4e82-841e-3ad12725ffd6/v1.3.xml