Viability of small seeds found in feces of the Central American tapir (Tapirus bairdii gill, 1865) on Barro Colorado Island, Panama. (original) (raw)
Related papers
2013
This study evaluated the potential of lowland tapirs as seed dispersers in the northern Brazilian Amazon. The study analyzed the viability of seeds after passage through the gut. Fecal samples were collected from 6 different vegetation physiognomies in Viruá National Park during the dry season. The samples were then kept in a greenhouse for 16 months to allow the seeds to germinate. The seedling species were identified and classified according to the type of fruit, plant habit, seed size and type of ingestion. Of the 111 fecal samples, 94 (84.7%) had viable seeds of 75 species. Melastomataceae was the most frequent family with viable seeds in the fecal samples (69.1% of samples, N = 18 species). The data suggest that the importance of the lowland tapirs as dispersers is not restricted to the species consumed actively by frugivory but also extends to species accidentally consumed during browsing. The occurrence of both large and small viable seeds in the fecal samples as well as a number of large drupes, which probably cannot be transported via endozoochory by any other animal species, provide evidence of the ecological importance of lowland tapirs to the dynamics of the forest–campinarana vegetation mosaic in the region.
This study evaluated the potential of lowland tapirs as seed dispersers in the northern Brazilian Amazon. The study analyzed the viability of seeds after passage through the gut. Fecal samples were collected from 6 different vegetation physiognomies in Viruá National Park during the dry season. The samples were then kept in a greenhouse for 16 months to allow the seeds to germinate. The seedling species were identified and classified according to the type of fruit, plant habit, seed size and type of ingestion. Of the 111 fecal samples, 94 (84.7%) had viable seeds of 75 species. Melastomataceae was the most frequent family with viable seeds in the fecal samples (69.1% of samples, N = 18 species). The data suggest that the importance of the lowland tapirs as dispersers is not restricted to the species consumed actively by frugivory but also extends to species accidentally consumed during browsing. The occurrence of both large and small viable seeds in the fecal samples as well as a number of large drupes, which probably cannot be transported via endozoochory by any other animal species, provide evidence of the ecological importance of lowland tapirs to the dynamics of the forest-campinarana vegetation mosaic in the region.
Frugivory and seed dispersal by tapirs: an insight on their ecological role
Integrative zoology, 2013
Tapirs are one of the last extant megafauna species that survived the Pleistocene extinctions. Given their size and digestive system characteristics, tapirs might be the last potential seed disperser of plant species that were previously dispersed by other large mammal species that are now extinct. We compiled evidence from 39 published scientific studies showing that tapirs have a key role as seed dispersers and seed predators. Tapirs play an important role either through seed predation or by facilitating the recruitment of seeds over long distances, therefore influencing the diversity of plant species in the ecosystem. Neotropical tapirs might have a unique role as long-distance seed dispersers of large seeds (<20 mm) because they are capable of depositing viable large seeds in favorable places for germination that even large-bodied primates cannot disperse. Given the high diversity of seed species found in tapir diet, more information is needed on the identification of seed traits that allow the survival of seeds in the tapir's gut. Moreover, further studies are necessary on the role of tapirs as seed dispersers and predators; in particular considering spatial patterns of dispersed seeds, seed viability, effect of dung, and seed density in tapir latrines, and the effect of deposition sites on germination and seedling survival. Because all tapir species are highly threatened, it is paramount to identify gaps in our knowledge on the ecological role of tapirs and, in particular, on critical and endangered plant-tapir interactions to avoid possible trophic cascading effects on ecosystem function.
Journal of Tropical Ecology, 2000
Tapirs (Tapiridae) are the last representatives of the Pleistocene megafauna of South and Central America. How they affect the ecology of plants was examined by studying the diversity, abundance, and condition of seeds defecatedd by the lowland tapir (Tapirus terrestris) in Amazonian Brazil. Additionally, the spatio-temporal pattern of the seed-rain and seed-shadows generated by tapirs was recorded. Three hundred and fifty-six tapir faeces were examined. Eleven per cent were found in water (n = 41), while 88% were located on dry land (n = 315). Of those found on dry land, 84% were located at sites that flood seasonally, while 14% of the total were encountered at forest sites that do not flood. In 127 faeces checked in the laboratory over 12 906 seeds of at least 39 species were found. Seed viability ranged from 65% for Maximiliana maripa to 98% for Enterolobium schomburgkii. Of nine seed species planted in the laboratory, seven germinated within 4 wk, with one species achieving an 89% germination rate. For many species recruitment to the seedling stage was also high under natural conditions, with 13 plant species occurring as seedlings in older faeces. Tapir generated seed-rain occurred throughout the year, with seeds defecated in all months. Two temporal patterns in species seed rain occurred: (1) contiguous monthly occurrence with peaks in abundance, and (2) discontinuous occurrence (time clumped) with small (a few months) to large (many months to more than a year) temporal gaps. The highest diversity of seeds appeared in April, at the end of the dry season. As the last of the Pleistocene megafauna of the region, tapirs may have particular importance as dispersers of large seeds and generators of unique seed dispersion patterns.
The Fate of Attalea phalerata (Palmae) Seeds Dispersed to a Tapir Latrine1
Biotropica, 2001
At the Beni Biological Station, Bolivia, we compared the fate of seeds of the palm Attalea phalerata dispersed by tapirs to a latrine with that of non-dispersed seeds. Survival of seeds that had passed through tapir guts did not differ significantly from that of unconsumed seeds, demonstrating that tapirs are legitimate seed dispersers of A. phalerata. Experimental and observational studies showed that tapir dispersal can contribute to escape from seed predation by bruchid beetles such as Pachymerus cardo. Nevertheless, the major contribution of the dispersal process may simply be the mechanical barrier to bruchid attack represented by the fecal material covering seeds. Furthermore, total absence of seedlings and adults from the tapir latrine studied suggests that seasonally flooded tapir latrines are not safe sites for A. phalerata. RESUMEN En la Estación Biológica del Beni, Bolivia, comparamos el destino de las semillas de la palmera Attalea phalerata dispersadas por tapires a su letrina con aquel de las semillas no dispersadas. La sobrevivencia de las semillas que pasaron por el tracto digestivo de tapires no difirió significativamente de aquellas no consumidas, mostrando que los tapires son legítimos dispersores de semillas de A. phalerata. Estudios experimentales y observacionales mostraron que la dispersión de semillas por tapir puede ayudar al escape de los depredadores de semillas como el brúquido Pachymerus cardo. Sin embargo, la principal contribución del proceso de dispersión puede ser simplemente la barrera mecánica al ataque por brúquidos representada por la materia fecal que cubre a las semillas. Además, la ausencia total de plántulas y adultos en la letrina estudiada sugiere que las letrinas de tapir que se inunden estacionalmente no son sitios seguros para la germinación y sobrevivencia de A. phalerata.
Anais da Academia Brasileira de Ciências
Endozoochory refers to the ingestion of fruits by animals and their release through faeces as it plays an important role in maintaining ecosystems. This study aimed to evaluate the effect of cumbaru fruit ingestion by tapirs on cumbaru seed germination. In latrines, fruits ingested and excreted by the animals were collected among tapir faeces. The collected material was taken to the laboratory and placed in a germination chamber and greenhouse. Fruit ingestion and its subsequent defection propitiated a higher germination rate and germination vigor compared to non-ingested fruit grown in a germination chamber and greenhouse. The results in the greenhouse showed that the latrines (decomposing organic matter) have different thermal conditions (higher temperature), in relation to the external environment, which probably accelerated the germination processes. Evaluation of seedlings grown in a greenhouse and germination chamber indicated that growth in the greenhouse was better due to humic and fulvic acids, which are common stimulants of seed germination and seedling growth. Therefore, tapirs can be considered good fruit dispersers and inducers of cumbaru seeds germination.