Live fast, don't die young: Survival–reproduction trade‐offs in long‐lived income breeders

Culina, Antica; Linton, Danielle M.; Pradel, Roger; Bouwhuis, Sandra; Macdonald, David W.

doi:10.1111/1365-2656.12957

Cited by 29 publications

(23 citation statements)

References 74 publications

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“…Bat banding (ringing) has become less popular through time, and is rigorously regulated in Australia because of unacceptable rates of injury in some species (Baker et al 2001). Nevertheless, banding remains one of the most common long-term marking choices for bats (Kunz and Weise 2009, Culina et al 2019, Locatelli et al 2019. There is little information available about band loss and, to our knowledge, this is the first study to report rates of loss from the use of flanged bat bands applied to the forearm.…”

Section: Discussionmentioning

confidence: 94%

Low Rates of PIT‐Tag Loss in an Insectivorous Bat Species

et al. 2021

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The rate of loss of tags used to mark individuals is an important consideration in wildlife research and monitoring. Passive integrated transponder (PIT) tags (or microchips) generally have high retention rates; however, tag loss rates for small mammals such as insectivorous bats are poorly understood. We double-marked a population of Gould's wattled bats (Chalinolobus gouldii) with forearm bands and PIT tags (with the injection site sealed with surgical adhesive) in January and February 2020 to determine rates of subsequent tag loss over the short-(1-2 months) and medium-(13-14 months) term. Loss of PIT tags occurred in 4 (2.7%) of 146 recaptured individuals, all within 2 months of microchipping. We also recorded 1 occurrence of band loss 11 months after banding. Our study supports assertions that PIT-tag retention rates in small mammals are high, and suggests that rates of tag loss in small bat species are low when surgical adhesive is applied. Quantifying the rate of tag loss enables this variable to be incorporated into mark-recapture models.

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Section: Discussionmentioning

confidence: 94%

Low Rates of PIT‐Tag Loss in an Insectivorous Bat Species

et al. 2021

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“…earlier onset of spermatogenesis, and possibly a shift in mating strategies, with increasing age) is a process that takes several years. Demonstrating that, as small-sized but long-lived mammals, bats exhibit unusual combinations of life-history traits 35 .…”

Section: Discussionmentioning

confidence: 99%

Phenology of reproductive condition varies with age and spring weather conditions in male Myotis daubentonii and M. nattereri (Chiroptera: Vespertilionidae)

Linton

Macdonald

2020

Sci Rep

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We examine the extent to which intrinsic and extrinsic factors influence reproductive phenology in male bats at the population level. Using data from thirteen breeding seasons (2006-2018), encompassing the reproductive histories of 1546 Myotis daubentonii and 530 M. nattereri males, we compare rates of sexual maturation and the temporal distribution of phases of spermatogenesis between juvenile (born that season) and adult (born in previous seasons) males. We found that (i) higher proportions of M. daubentonii (50.81%) than M. nattereri (12.85%) became sexually mature as juveniles, (ii) the proportion of juveniles in reproductive condition per annum was influenced by spring weather conditions, (iii) in both species males that reached puberty as juveniles had higher body mass, on average, than immature juveniles, (iv) older males (aged ≥4 years old) commenced spermatogenesis earlier than young adult males (aged 1-3 years old), whilst juveniles that commenced spermatogenesis did so later in the year than adults, in both species, and (v) M. daubentonii commenced and completed spermatogenesis earlier than M. nattereri in the equivalent age class. Our findings suggest that selection pressure exists for early mating readiness and synchronisation with female receptivity. Seasonal variation in climate and resource availability (e.g. prey abundance) imposes energetic constraints on the timing of reproduction for many organisms in both temperate and tropical environments 1,2. Previous studies have confirmed the existence of seasonal breeding cycles in bats from several genera, occupying diverse habitats and ecological niches 3. Flexibility in the frequency, timing, and characteristics (e.g. whether or not prolonged sperm storage occurs in either sex) of breeding cycles are even known to occur across the range of some widely distributed species in response to local conditions 4. At temperate latitudes the reproductive cycle of hibernating bat species is interrupted by winter 5. The mating season commences in late summer and mating activity peaks during autumn 6 , but copulation also occurs (during periods of arousal for one or both parties) throughout hibernation 7,8 , and some mating effort may resume during spring (to varying extents in different species) 9. Prolonged sperm storage can occur in bats of either sex, enabling separation of spermatogenesis and mating effort for males 5 , and an interval (often of several months duration) between copulation and conception in breeding females 10. Sperm storage over winter enables inseminated females to commence gestation as early as possible on emergence from hibernation (i.e. without using limited energy reserves or spending time on mating activities in spring) 11. Earlier parturition, given favourable conditions, can increase reproductive success and survival rates of both mother and offspring 12-14. Prolonged storage of viable sperm in male bats has enabled a unique asynchrony to develop between spermatogenesis and the functioning of accessory sex organs and libido 5. Sperma...

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“…Bat species, for example, may show a combination of life history traits either related to a fast or slow life history (Culina et al 2019). In invasion ecology, fast life history traits are suggested to promote the population growth and spread of introduced species, thus favouring species 'invasiveness': for example, success of mammals at the introduction stage is related to having large, more frequent litters and a longer reproductive lifespan, while establishment success is related to larger litters, longer reproductive lifespan and greater introduction effort, and their spread success is associated with larger, more frequent litters and higher introduction effort (Capellini et al 2015).…”

Section: Introductionmentioning

confidence: 99%

Exploring the role of life history traits and introduction effort in understanding invasion success in mammals: A case study of Barbary ground squirrels

Marel

Waterman

López-Darias

2020

Preprint

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Invasive species (species that have successfully overcome the barriers of transport, introduction, establishment, and spread) are a risk to biodiversity and ecosystem function. Introduction effort is one of the main factors attributed to invasion success, but life history traits are also important as they influence population growth. In this contribution, we first investigated life history traits of the Barbary ground squirrel, Atlantoxerus getulus, a species with a remarkably low introduction effort, and studied whether their exceptional invasion success is due to a very fast life history profile through a comparison of these traits to other successfully invaded mammals. We then examined whether number of founders and/or a fast life history influences invasion success of squirrels. We found that Barbary ground squirrels were on the fast end of the fast-slow continuum, but their life history is not the only contributing factor for their invasion success, as the life history profile is comparable to other invasive species that do not have such a low introduction effort. We also found that neither life history traits nor number of founders explained invasion success of introduced squirrels in general. These results contradict the concept that introduction effort is the main factor explaining invasion success, especially in squirrels. Instead, we argue that invasion success can be influenced by multiple aspects of the new habitat or the biology of the introduced species.

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Live fast, don't die young: Survival–reproduction trade‐offs in long‐lived income breeders

Cited by 29 publications

References 74 publications

Low Rates of PIT‐Tag Loss in an Insectivorous Bat Species

Low Rates of PIT‐Tag Loss in an Insectivorous Bat Species

Phenology of reproductive condition varies with age and spring weather conditions in male Myotis daubentonii and M. nattereri (Chiroptera: Vespertilionidae)

Exploring the role of life history traits and introduction effort in understanding invasion success in mammals: A case study of Barbary ground squirrels

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