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Small populations on small islands: What chance does an orchid have?
Ackerman, J.D.; Tremblay, R.L.; Pérez, M.E.; Madden, H.; Bechtold, M.; Boeken, M. (2020). Small populations on small islands: What chance does an orchid have? International journal of plant sciences 181(7): 667-685. https://dx.doi.org/10.1086/709399
In: International journal of plant sciences. The University of Chicago Press: Chicago. ISSN 1058-5893; e-ISSN 1537-5315
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| Trefwoorden |
Brassavola cucullata; Orchidaceae [WoRMS]
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| Author keywords |
Brassavola cucullata; population dynamics; Lesser Antilles; transient dynamics; island conservation; Orchidaceae |
| Auteurs | | Top |
- Ackerman, J.D.
- Tremblay, R.L.
- Pérez, M.E.
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- Madden, H.
- Bechtold, M.
- Boeken, M.
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| Abstract |
Premise of research. Small populations on small islands are intrinsically more vulnerable to population decline and extinction. Nevertheless, small native populations that occur on multiple islands may have life-history characteristics that buffer impacts from novel disturbance regimes, and, rather than contracting, populations may be expanding. We monitored three populations of the orchid Brassavola cucullate from two Caribbean islands and asked what the likelihood of population persistence is.Methodology. Over 3–4 yr, we recorded growth, fruit production, herbivory, recruitment, and mortality for all plants in each of our populations. We assessed persistence and predicted possible population changes using both population projection models (PPMs) and integral projection models (IPMs). Our results include a mixture of traditional indexes (λ and elasticities) and more recent indexes (transient dynamics and nonlinear sensitivities).Pivotal results. Growth, reproduction, and predicted population persistence varied among years and islands. IPMs and PPMs gave similar results. The overall trend is toward a reduction in population growth rates, although population reactivity may buffer this pattern in the short term (λ>1). Populations would be extremely vulnerable to reduction if small plants dominated, yet even with an abundance of large plants, substantial reductions in population density are possible. Medium and larger plants contribute more to the persistence of the population, yet the survival and growth of small individuals might have greater effects on λ if retrogression is observed. To attain population stability, effective recruitment rates must increase dramatically.Conclusions. Populations of perennial plants on small islands can fluctuate substantially, suggesting a degree of vulnerability. While B. cucullate shows a general trajectory of decline, there are some signs of stability despite deforestation and herbivore activity. The outlook is precarious for the Saba population given the predominance of younger plants, and all three populations could decline if spasmodic recruitment fails to occur, which may happen if disturbance regimes change and the ongoing warming and drying trends persist. |
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