Variation across river channels in demographic dynamics of a riparian herb with threatened status: management and conservation implications

Premise Gesneria pauciflora is a rare, threatened plant in riparian forests. Periodic disturbances, expected in this habitat, could influence demographic dynamics on plant populations, yet their impact may not be the same across the watershed. We hypothesized that differences in disturbances between...

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Bibliographic Details
Published in:American journal of botany 2019-07, Vol.106 (7), p.996-1010
Main Authors: Pérez, Mervin E., Meléndez‐Ackerman, Elvia J., Monsegur‐Rivera, Omar A.
Format: Article
Language:English
Subjects:
Caribbean
Cuttings
Demographics
Disturbances
Ecosystem
Fecundity
Gesneria pauciflora
Gesneriaceae
Growth rate
integral projection models
Lamiales
Models, Statistical
Mortality
natural disturbances
plant population dynamics
Plant populations
Plants (botany)
Population Dynamics
Population growth
Population status
Projection model
Puerto Rico
Rainy season
Reintroduction
Riparian forests
riverine ecosystems
Rivers
Seedlings
Survival
Tributaries
Watersheds
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Summary:Premise Gesneria pauciflora is a rare, threatened plant in riparian forests. Periodic disturbances, expected in this habitat, could influence demographic dynamics on plant populations, yet their impact may not be the same across the watershed. We hypothesized that differences in disturbances between the main channel and tributaries may lead to spatial dissimilarities in population growth rate (λ), structure, and fecundity. Methods In the Maricao River Watershed in Puerto Rico, 1277 plants were tagged and monitored for 1.5 years. Every 6 months, we measured plant size and recorded survival, fecundity, and appearance of seedlings. These variables were used in integral projection models to assess the population status of G. pauciflora. Results Plants in the main channel were smaller but more likely to flower and fruit than those in the tributaries. Overall mortality was greater in the main channel and greater during the rainy season. At both sites, λ ranged from 0.9114 to 0.9865, and survival/growth of larger plants had a greater effect on λ (>0.90) regardless of site. Conclusions Values for population growth rates suggest that G. pauciflora is declining across the watershed. Higher mortality rates in the main channel (more‐perturbed sites) might drive G. pauciflora to reproduce at smaller sizes, while tributaries (less‐perturbed sites) might be better for growth and lead to larger plant sizes. Extreme climatic events are expected to increase in the Caribbean and might decrease the population if the population is left unmanaged. Management strategies that reduce the time plants require to reach larger sizes might be necessary to increase λ, and reintroduction using cuttings might be a possible solution.
ISSN:0002-9122
1537-2197
DOI:10.1002/ajb2.1316