Reproductive biology of Artibeus fimbriatus Gray 1838 (Chiroptera) at the southern limit of its geographic range

Lima, Camila S.; Fabián, Marta Elena

doi:10.1590/1676-0611-bn-2016-0231

Cited by 6 publications

(2 citation statements)

References 18 publications

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“…sodalis) at summer maternity sites indicates that physiology and development are reliable cues for migration (Pettit and O'Keefe 2017). For example, changes in the seasons cues preparation for migration, including fattening in the European migratory common noctule bat Nyctalus noctula (Voight et al 2019) and reproduction in the fringed fruit-eating bat Artibeus fimbriatus (Lima and Fabián 2016). The narrow departure dates of M. natalensis at the Madimatle cave supports the results that photoperiod is the strongest predictor of activity for this species, but arrival, which was variable between years, is likely modulated by unpredictable climatic events before and during migration from the hibernation site, such as cold snaps, heavy rainfall or high winds (Pettit and O'Keefe 2017).…”

Section: Discussionmentioning

confidence: 99%

Climatic correlates of migrant Natal long-fingered bat (Miniopterus natalensis) phenology in north-eastern South Africa

Pretorius

Broders

Seamark³

et al. 2020

Wildl. Res.

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ContextFor migratory animals, particularly those with long generation times, changing weather patterns may cause a mismatch between periods of expected and actual resource availability, termed phenological mismatch. The cave-dwelling Natal long-fingered bat (Miniopterus natalensis) is a regional migrant within South Africa for which the (hitherto unknown) phenology of migration may be affected by climate. AimsTo investigate the migration phenology of the Natal long-fingered bat in relation to climate at a maternity cave in South Africa. MethodsFive years (2014–18) of echolocation data from a maternity cave site in Limpopo, South Africa, were studied. Separate stepwise General Linear Models (GLMs) were constructed for each season using photoperiod, minimum temperature, dew point, rainfall, barometric pressure, humidity and maximum wind speed. Arrival and departure dates among years were also compared. Key resultsPhotoperiod had the greatest effect on the magnitude of Natal long-fingered bat phenological patterns in activity across all seasons. Although spring (September - November) arrival at the maternity site was variable across years, summer departure dates did not differ, resulting in a shorter breeding period in the 2017–18 sample year. During the 2016–17 sample year, the magnitude of Natal long-fingered bat activity was significantly lower than in other years, which coincided with El Niño-induced drought conditions and likely impacted resources and led to a reduction in activity and population size. ConclusionsPhotoperiod is a strong predictive cue of the phenology of migration of the Natal long-fingered bat and likely cues migration for this species. The narrow departure dates of these bats from the maternity site supports these results. ImplicationsThe present study indicates that Natal long-fingered bats use photoperiod as a migration cue and do not appear to shift their spring–summer breeding season, likely making them vulnerable to phenological mismatch and population decline. The research highlights the need for systematic population monitoring for the Natal long-fingered bat.

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Section: Discussionmentioning

confidence: 99%

Climatic correlates of migrant Natal long-fingered bat (Miniopterus natalensis) phenology in north-eastern South Africa

Pretorius

Broders

Seamark³

et al. 2020

Wildl. Res.

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“…Thus, four main reproductive strategies are recognized for bats in the Neotropical Region (Fleming et al, 1972): seasonal monoestry (1), with only one pregnancy per year in a given season (Zortéa, 2003); seasonal polyestry (2), with two annual pregnancies and frequency presenting two peaks in a rapid succession (Bernard, 2002); extensive reproductive period followed by a short period of inactivity (3), with more than one progeny per year in different pregnancies (Willig, 1985); and continuous or non-seasonal polyestry (4), with pregnancy in different months over a year and reproduction all year round (Trajano, 1984). Bats reproductive strategies variation along different areas are connected with endogenous and exogenous factors (Willig, 1985;Klose et al, 2006;Lima & Fabián, 2016), such as resource availability, which is directly affected by environmental conditions, such as temperature and precipitation (Tamsitt & Valdivieso, 1963). According to Durant et al (2013), reproductive phenologies of populations are strongly molded by environmental variation because the phenomenon of natural selection tends to favor individuals that time energetically demanding portions of their life cycle to correspond with periods of high resource availability.…”

Section: Introductionmentioning

confidence: 99%

Reproduction of Artibeus lituratus and Sturnira lilium (Chiroptera: Phyllostomidae) in a Semideciduous Seasonal Forest fragment in southern Brazil

Ribas

2022

Acta Biol. Par.

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Reproductive phenologies of phyllostomid bats in the Central Amazon

et al. 2022

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Mammals tend to align their most energetically demanding phenological events with periods of peak resource availability. Their reproductive phenology is influenced by local resource availability, potentially leading to geographical variation in their breeding strategy. Although the Amazon is the world's epicenter of bat diversity, the reproductive phenology of Amazonian bats remains poorly known. Seasonality induces fluctuations in resource availability and most phyllostomid species, crucial agents of seed dispersal, pollination and arthropod suppression in the Neotropics, have been described to exhibit seasonal bimodal polyestry. However, current understanding of phyllostomid reproductive phenology is impaired by the paucity of comparative examinations of the phenologies of sympatric species, using consistent classification schemes based on the number and timing of annual peaks in pregnancy and lactation. Using a multi-year dataset from Central Amazonia, we examined the reproductive phenology of nine bat species (Artibeus concolor, A. obscurus, A. lituratus, Carollia brevicauda, C. perspicillata, Gardnerycteris crenulatum, Lophostoma silvicolum, Rhinophylla pumilio, and Trachops cirrhosus), as well as two feeding ensembles (i.e., frugivores and gleaning animalivores). Only three of the nine species exhibited a bimodal reproductive phenology. Six species and the frugivore ensemble showed unimodal reproductive phenology, while gleaning animalivores displayed an amodal pregnancy pattern. All species except L. silvicolum had their primary pregnancy peak during the mid dry season. A reproductive peak during the early wet season, or local variation in the duration of the fruiting season may explain the deviation of our observations from the expected bimodal polyestry.

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Reproductive biology of Artibeus fimbriatus Gray 1838 (Chiroptera) at the southern limit of its geographic range

Cited by 6 publications

References 18 publications

Climatic correlates of migrant Natal long-fingered bat (Miniopterus natalensis) phenology in north-eastern South Africa

Climatic correlates of migrant Natal long-fingered bat (Miniopterus natalensis) phenology in north-eastern South Africa

Reproduction of Artibeus lituratus and Sturnira lilium (Chiroptera: Phyllostomidae) in a Semideciduous Seasonal Forest fragment in southern Brazil

Reproductive phenologies of phyllostomid bats in the Central Amazon

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