Organic Matter Dynamics on the Forest Floor of a Micronesian Mangrove Forest:
An Investigation of Species Composition Shifts
Sean M. Gleason and Katherine C. Ewel
(Click for Abstract)
The Role of Cloud Combing and Shading by Isolated Trees in the Succession from
Maquis to Rain Forest in New Caledonia
L. S. Rigg, N. J. Enright, G. L. W. Perry, and B. P. Miller
(Click for Abstract)
Survival, Growth, and Ecosystem Dynamics of Displaced Bromeliads in a Montane
Tropical Forest
Jennifer Pett-Ridge and Whendee L. Silver
(Click for Abstract)
High Temperatures and Net CO
2
Uptake, Growth, and Stem Damage for the Hemiepiphytic Cactus
Hylocereus undatugs
Park S. Nobel and Erick De la Barrera
(Click for Abstract)
(Resumen Haga Clic Aquí)
Disperser- vs. Establishment-Limited Distribution of a Riparian Fig Tree
(Ficus insipida)
in a Costa Rican Tropical Rain Forest
Sandra Anne Banack, Michael H. Horn, and Anna Gawlicka
(Click for Abstract)
(Resumen Haga Clic Aquí)
Vertical Stratification and Caloric Content of the Standing Fruit Crop in a
Tropical Lowland Forest
Hinrich Martin Schaefer, Veronika Schmidt, and Jens Wesenberg
(Click for Abstract)
(Resumen Haga Clic Aquí)
Ornithophilous and Chiropterophilous Pollination in
Musa itinerans
(Musaceae), a Pioneer Species in Tropical Rain Forests of Yunnan, Southwestern
China
Ai-Zhong Liu, De-Zhu Li, Hong Wang, and W. John Kress
(Click for Abstract)
Primary Seed Dispersal by Red Howler Monkeys and the Effect of Defecation
Patterns on the Fate of Dispersed Seeds
Ellen Andresen
(Click for Abstract)
(Resumen Haga Clic Aquí)
Nutritional Evaluation of Terrestrial Invertebrates as Traditional Food in
Amazonia
Stefania Marconi, Pamela Manzi, Laura Pizzoferrato, Erika Buscardo, Hugo Cerda,
Danilo Lopez Hernandez, and Maurizio G. Paoletti
(Click for Abstract)
Are Tropical Highland Frog Calls Cold-adapted? The Case of the Andean Frog
Hyla labialis
Horst Lüddecke and Oscar Raúl Sánchez
(Click for Abstract)
Effects of Selective Logging on Populations of Two Tropical Understory Herbs in
an Amazonian Forest
Flávia Regina Capellotto Costa, Cristina Senna, and Erika Matsuno
Nakkazono
(Click for Abstract)
(Resumen Haga Clic Aquí)
Dung Beetle Communities and Seed Dispersal in Primary Forest and Disturbed Land
in Amazonia
Kevina Vulinec
(Click for Abstract)
(Resumen Haga Clic Aquí)
Factors Affecting the Small Mammal Community Inside and Outside Katavi National
Park, Tanzania
T. M. Caro
(Click for Abstract)
Growth and Mortality Rates of the Liana
Machaerium cuspidatum
in Relation to Light and Topographic Position
Jacob Nabe-Nielsen
Seed and Seedling Survival of Some Climber Species in a Southeast Brazilian
Tropical Forest
Maria Cristina Sanches and I. F. M. Válio
What's Up? An Experimental Comparison of Predation Levels between Canopy and
Understory in a Tropical Wet Forest
Bette A. Loiselle and Alejandro G. Farji-Brener
Biotropica, A New Deal on Old Issues
G. Bruce Williamson
Organic Matter Dynamics on the Forest Floor of a Micronesian Mangrove Forest: An Investigation of Species Composition Shifts
Sean M. Gleason and Katherine C. Ewel
Species composition shifts in mangrove forests may alter organic matter dynamics. The purpose of this study was to predict the effect of species replacements among mangrove trees on organic matter dynamics in a mangrove forest on the island of Kosrae, Federated States of Micronesia. We were particularly interested in elements of the carbon cycle that affect peat accumulation rates, organic matter exports to the estuary and coral reef systems, and soil microbiology. We compared organic matter production and decomposition rates among three mangrove species that commonly grow in similar hydrogeomorphic settings: Rhizophora apiculata BL, which is selectively harvested; Bruguiera gymnorrhiza, which may gradually replace Rhizophora; and Sonneratia alba, which is producing few mature fruits. Sonneratia had significantly higher rates of root production (estimated with ingrowth chambers) than Bruguiera or Rhizophora. Sonneratia foliage had significantly faster decomposition rates and significantly lower lignin:nitrogen ratios than Bruguiera foliage. Live root mass was positively correlated with ingrowth and soil carbon, although soil carbon and ingrowth were not significantly correlated with each other. Humic acid concentrations were significantly higher in Sonneratia rhizospheres than in either Bruguiera or Rhizophora rhizospheres and were positively correlated with root ingrowth. The species changes taking place on Kosrae are likely to result in lower rates of root production and foliage decomposition, and more refractory carbon pools in soil.
The Role of Cloud Combing and Shading by Isolated Trees in the succession from Maquis to Rain Forest in New Caledonia
L. S. Rigg, N. J. Enright, G. L. W. Perry, and B. P. Miller
This study examined the role of shading and cloud combing of moisture by scattered trees of the emergent conifer Araucaria laubenfelsii (Corbass.) in montane shrubland-maquis at Mont Do, New Caledonia, in facilitating the succession from shrubland to rain forest. Water collection experiments showed that these trees combed significant amounts of water from low clouds on days when no rainfall was recorded and deposited this moisture on the ground beneath the tree canopy. Analysis of photosystem II function in A. laubenfelsii and five other plant species using fluorometry revealed much lower photosystem stress in plants beneath scattered A. laubenfelsii than for individuals exposed to full sunlight in the open maquis. Transition matrix analyses of vegetation change based on "the most likely recruit to succeed" indicated that the transition from maquis to forest was markedly faster when emergent trees of A. laubenfelsii acted as nuclei for forest species invasion of the maquis. On the basis of these lines of evidence, it is argued that increased moisture and shading supplied to the area directly below the crown of isolated A. laubenfelsii trees in the maquis facilitates the establishment of both conifer seedlings and other rain forest tree and shrub species. In the absence of fire, rain forest can reestablish through spread in two ways: first, by expansion from remnant patches, and second, from coalescence of small rain forest patches formed around individual trees of A. laubenfelsii.
Survival, Growth, and Ecosystem Dynamics of Displaced Bromeliads in a Montane Tropical Forest
Jennifer Pett-Ridge and Whendee L. Silver
Abstract
Epiphytes generally occupy arboreal perches, which are inherently unstable environments due to periodic windstorms, branch falls, and treefalls. During high wind events, arboreal bromeliads are often knocked from the canopy and deposited on the forest floor. In this study, we used a common epiphytic tank bromeliad, Guzmania berteroniana (R. & S.) Mez, to determine if fallen bromeliads can survive, grow, and reproduce on the forest floor and evaluate what the potential impact of adult dispersal on plant and soil nutrient pools. Bromeliads were transplanted to and from tree stems and the forest floor and monitored intensively for six months; survival, growth, and impacts on ecosystem nutrient pools were followed on a subset of plants for 16 months. Six months after transplanting, bromeliad mortality was low (3%), and 19 percent of study individuals had flowered and produced new juvenile shoots. Mortality on the subset of plants followed for 16 months was 14-30 percent. Although survival rates were relatively high in all habitats, bromeliads transplanted to trees grew significantly more root length ( X ± SE: 189 43 cm) than those moved to the forest floor (53 15 cm) and experienced lower rates of leaf area loss. All transplanted bromeliads rapidly altered the substrate they occupied. Individuals transplanted to and among trees rapidly decreased base cation concentrations but significantly increased P concentrations of their underlying substrate. On the ground, bromeliads increased C, N, and P concentrations within nine months of placement. Our results suggest that in this montane tropical forest, bromeliads respond rapidly to displacement, locally modify their substrates, and can access the resources needed for survival regardless of habitat.
High Temperatures and Net CO
2
Uptake, Growth, and Stem Damage for the Hemiepiphytic Cactus
Hylocereus undatus
Park S. Nobel and Erick De la Barrera
Abstract
Hylocereus undatus, which is native to tropical forests experiencing moderate temperatures, would not be expected to tolerate the extremely high temperatures that can be tolerated by cacti native to deserts. Nevertheless, total daily net CO 2 uptake by this hemiepiphytic cactus, which is widely cultivated for its fruits, was optimal at day/night air temperatures of 30/20 °C, temperatures that are higher than those optimal for daily net CO 2 uptake by cacti native to arid and semiarid areas. Exposure to 35/25 °C for 30 weeks led to lower net CO 2 uptake than at 10 weeks; exposure to 40/30 °C led to considerable necrosis visible on the stems at 6 weeks and nearly complete browning of the stems by 19 weeks. Dry mass gain over 31 weeks was greatest for plants at 30/20 °C, with root growth being especially noteworthy and root dry mass gain representing an increasing percentage of plant dry mass gain as day/night air temperatures were increased. Viability of chlorenchyma cells, assayed by the uptake of the vital stain neutral red into the central vacuoles, was decreased 50 percent by a one-hour treatment at 55 °C compared with an average of 64 °C for 18 species of cacti native to deserts. The lower high-temperature tolerance for H. undatus reflected its low high-temperature acclimation of only 1.4 °C as growth temperatures were raised by 10 °C compared with an average acclimation of 5.3°C for the other 18 species of cacti. Thus, this tropical hemiepiphytic cactus is not adapted to day/night air temperatures above ca 40/30 °C, although its net CO 2 uptake is optimal at the relatively high day/night air temperatures of 30/20 °C.
Cabe esperar que Hylocereus undatus, una especie nativa del bosque tropical expuesta a temperaturas moderadas, no sea capaz de tolerar las temperaturas extremadamente altas que toleran los cactus nativos del desierto. Sin embargo, la asimilación diaria neta óptima de CO 2 de esta cactácea hemiepífita, ampliamente cultivada por sus frutos, ocurrió a temperaturas ambiente de 30/20C (diurna/nocturna); mismas que son mayores que las de los cactus nativos de zonas áridas y semiáridas. Un régimen de temperaturas de 35/25C durante 30 semanas condujo a una asimilación neta de CO 2 menor que aquella registrada a las 10 semanas; un régimen de 40/30C condujo a una necrosis considerable, visible en los tallos a partir de la sexta semana, que se extendió hasta cubrirlos casi totalmente a las 19 semanas. Después de 31 semanas el incremento en peso seco fue mayor en las plantas sometidas a 30/20C, el crecimiento de la raíz fue especialmente notable y representó una proporción creciente del peso seco conforme las temperaturas diurna/nocturna se elevaron. La viabilidad de las células del clorénquima, determinada mediante la incorporación in vivo de la tinción rojo neutro en las vacuolas centrales, disminuyó 50 por ciento después de una hora a 55C, comparada con el promedio de 64C registrado para las otras 18 cactáceas nativas del desierto. La escasa tolerancia de H. undatus a temperaturas elevadas se reflejó en una aclimatación mínima de sólo 1.4C, cuando la temperatura se elevó 10C durante su crecimiento; las otras 18 especies de cactus presentaron una aclimatación promedio de 5.3C. Por lo tanto, esta cactácea hemiepífita, no está adaptada a temperaturas diurna/nocturna superiores a los 40/30C, a pesar de que su asimilación neta óptima de CO 2 ocurre a temperaturas relativamente altas de 30/20C.
Disperser- vs. Establishment-Limited Distribution of a Riparian Fig Tree (Ficus insipida) in a Costa Rican Tropical Rain Forest
Sandra Anne Banack, Michael H. Horn, and Anna Gawlicka
Abstract
Studies were conducted at the La Selva Biological Station in Costa Rica and in a greenhouse in California to determine the factors accounting for the nonrandom distribution of the riparian fig tree Ficus insipida Willd. along streams in the La Selva Biological Reserve and adjacent deforested lands. We also evaluated the potential seed dispersers of this tree relative to the role of the fruit-eating fish Brycon guatemalensis that previously was proposed to be an important disperser of F. insipida seeds in this system. At La Selva, we recorded the fig-foraging activities of vertebrates at fruiting F. insipida trees, surveyed for the presence or absence of F. insipida along streams of different sizes, and determined the fate of fig seedlings transplanted in different riparian habitats. In the greenhouse, we measured seed germination and seedling survival and growth under different light and soil pH conditions mimicking natural conditions. The findings provided evidence that (1) the tree occurs along the larger streams running through forest habitat and only along smaller streams with relatively high light availability; (2) bats (Artibeus spp.) and fish are the major dispersers of F. insipida seeds; (3) the seedlings are subject to mortality not only from low light conditions but also from treefalls, frequent flooding, and bank erosion; and (4) high light levels and near neutral soil pH result in relatively better seed germination, faster growth, and higher survival rates of seedlings. Overall, our results suggest that this fig tree is dispersed mainly by bats and fish and is more establishment-limited than disperser-limited in its local distribution in the La Selva rain forest habitat.
El objetivo de este estudio fue determinar los factores que explican la distribución no aleatoria de la higuera ribereña Ficus insipida Willd; localizada a lo largo de los arroyos de la Reserva Biológica La Selva en Costa Rica y en áreas deforestadas adyacentes. También se realizaron estudios de invernadero en California. Comparamos a los potenciales dispersores de semillas de F. insipida con Brycon guatemalensis , un pez frugívoro que anteriormente fue propuesto como dispersor importante de las semillas de Ficus insipida . En La Selva, documentamos las actividades de los vertebrados que forrajeaban higueras en árboles de F. insipida con frutos, inspeccionamos la presencia o ausencia de F. insipida a lo largo de arroyos de diversos tamaños, y determinamos el destino de las plántulas de higuera que fueron transplantadas a diferentes regiones ribereñas. En el invernadero cuantificamos la germinación de las semillas, la supervivencia y el crecimiento de las plántulas en diferentes condiciones de luz y pH edáficos similares a las condiciones naturales de La Selva. Los resultados fueron los siguientes: (1) F. insipida existe a lo largo de los arroyos más grandes que atraviesan el bosque y en arroyos pequeños con una iluminación relativamente alta, (2) los murciélagos ( Artibeus spp.) y los peces son los principales dispersores de sus semillas, (3) las plántulas experimentan mortalidad no sólo por la escasa iluminación sino por la caída de árboles, inundaciones frecuentes y erosión de las riberas, (4) una mayor intensidad luminosa y un pH casi neutro permiten una mejor germinación de semillas, un crecimiento más acelerado, y mayores tasas de supervivencia en las plántulas. En conclusión, nuestros resultados sugieren que F. insipida es dispersado principalmente por murciélagos y peces, y que su distribución local está más limitada por su capacidad para establecerse que por su dispersión en el bosque trópical de La Selva.
Vertical Stratification and Caloric Content of the Standing Fruit Crop in a Tropical Lowland Forest
Hinrich Martin Schaefer, Veronika Schmidt, and Jens Wesenberg
Abstract
Fruit abundance in tropical forests thus far has been studied in relation to consumer populations. Area-based surveys that focus on the quantity and quality of the standing fruit crop of an entire plant community, however, are lacking. This paper presents the results of a four-month study on the seasonality and vertical distribution of the standing fruit crop within a tropical forest during the dry season in southern Venezuela. Fruit numbers ranged from 262,000 to 424,000 fruits/ha. The standing crop was between 39 and 92 kg/ha, yielding 67,000 to 126,000 kJ. Fruits were not evenly distributed in different forest layers. They were most abundant in the canopy above 16 m and scarce between 4 and 12 m above the ground. Despite a scarcity of fruits in the mid-strata, the caloric value of the total fruit supply peaked within a narrow layer of subcanopy at 12 to 16 m above ground due to a high amount of energy per fruit. Palms fruited mostly in this layer, their fruits contributing 59 percent of the energy supplied by all fruits. Above 12 m, we found a broader range of fruit sizes than in the forest below 12 m. Small-sized fruits were distributed in the understory and in the canopy but were nearly absent from the mid-story. Corresponding to the abundance of small-sized fruits in the canopy, small frugivorous species, such as members of the Thraupidae , limited their foraging to the canopy strata whereas larger avian frugivores foraged mainly in the mid-story.
Hasta ahora, en los bosques tropicales sólo se han realizado estudios sobre la abundancia de frutos en relación con las poblaciones de consumidores. Sin embargo, no existen estudios sobre la cantidad y calidad de la producción de frutos de toda la comunidad vegetal en un área dada. Este trabajo presenta los resultados de un estudio sobre la estacionalidad y distribución vertical de la producción de frutos en un bosque tropical al sur de Venezuela. El estudio tuvo una duración de cuatro meses y se llevó a cabo en la estación seca. La cantidad de frutos osciló de 262,000 a 424,000 frutos/ha. La cosecha de frutos fluctuó entre 39 y 92 kg/ha, lo que en términos energéticos representó entre 67,000 y 126,000 kJ/ha. Los frutos no estuvieron distribuidos uniformemente en los diferentes estratos del bosque. Los frutos fueron más abundantes en el dosel del bosque arriba de los 16 m de altura y escasos entre 4 y 12 m. A pesar de la escasez de frutos presentes en el estrato medio, el valor calórico total alcanzó su nivel máximo en una estrecha capa del subdosel (entre 12 y 16 m de altura) debido a la alta cantidad de energía aportada por cada fruto. Los frutos de palmera fueron los más abundantes en esta capa y aportaron el 59 por ciento de la energía total. Arriba de los 12 m de altura, la variación en el tamaño de los frutos fue mayor que en los estratos del bosque ubicados por debajo. Los frutos pequeños fueron más abundantes en el sotobosque y el dosel de la selva que en el estrato medio, del cual estuvieron prácticamente ausentes. Como resultado de la abundancia de frutos pequeños en el dosel del bosque, las aves frugívoras pequeñas, como los Thraupidae, forrajearon en este estrato, mientras que las aves frugívoras de mayor tamaño forrajearon en el estrato medio.
Ornithophilous and Chiropterophilous Pollination in Musa itinerans (Musaceae), a Pioneer Species in Tropical Rain Forests of Yunnan, Southwestern China
Ai-Zhong Liu, De-Zhu Li, Hong Wang, and W. John Kress
Abstract
The role of bats and sunbirds in the pollination ecology of Musa itinerans Cheesman (Musaceae) was studied in the tropical seasonal rain forests of Xishuangbanna, southern Yunnan, China. It was found that both long-tongued fruit bats ( Macroglossus sobrinus) and sunbirds (Arachnothera longirostris) were effective pollinators of M. itinerans. Nectar production had two peaks, one during the day and one during night (0800-1200 h and 2000-2400 h), which allowed the two different foragers to visit at specific times. The visitation patterns of the two foragers coincided with both flowering time and nectar production. By measuring the differences in fruit weight and seed production among different bagging experiments, we found that birds and bats were equally effective as pollinators of this species.
Primary seed dispersal by red howler monkeys and the effect of defecation patterns on the fate of dispersed seeds
Ellen Andresen
Abstract
The effectiveness of a seed disperser depends on the quantity and quality of dispersal. The quality of dispersal depends in large part on factors that affect the post-dispersal fate of seeds, and yet this aspect of dispersal quality is rarely assessed. In the particular case of seed dispersal through endozoochory, the defecation pattern produced has the potential of affecting the fate of dispersed seeds and consequently, dispersal quality and effectiveness. In this study, I assessed the effects of dung presence and dung/seed densities on seed predation by rodents and secondary dispersal by dung beetles. In particular, I compared seed fates in clumped defecation patterns, as those produced by howler monkeys, with seed fates in scattered defecation patterns, as those produced by other frugivores. I also determined the prevalence of red howler monkeys (Alouatta seniculus) as seed dispersers at the plant community level in Central Amazonia by determining the number of species they dispersed in a 25-month period. I found that dung presence and amount affected rodent and dung beetle behavior. Seed predation rates were higher when dung was present, and when it was in higher densities. The same number of seeds was buried by dung beetles, in clumped versus scattered defecation patterns, but more seeds were buried when they were inside large dung-piles versus small piles. Seed density had no effect on rodent or dung beetle behavior. Results indicate that caution should be taken when categorizing an animal as a high or low quality seed disperser before carefully examining the factors that affect the fate of dispersed seeds. Red howler monkeys dispersed the seeds of 137 species during the study period, which is the highest yet reported number for an Alouatta species, and should thus be considered highly prevalent seed dispersers at the plant community level in Central Amazonian terra firme rain forests.
A efetividade da dispersão de sementes depende da quantidade e qualidade da dispersão. A qualidade da dispersão, por sua vez, depende em grande parte dos fatores pós-dispersão que afetam o destino das sementes-um aspecto pouco explorado na literatura. No caso especial de dispersão de sementes por endozoocoria, o padrão de defecação tem potencial de afetar o destino das sementes dispersas e consequentemente a qualidade da dispersão. Neste estudo, eu investiguei os efeitos da presença de fezes e da densidade de sementes e de fezes sobre a predação de sementes por roedores, e sobre a dispersão secundária por besouros coprófagos. Em particular, eu comparei o destino das sementes em padrões de defecação agregada, como as produzidas por macacos guaribas, e em padrões de defecação dispersa, como as produzidas por outros frugívoros. Eu também determinei a prevalência dos guaribas vermelhos (Alouatta seniculus) como dispersores de sementes da comunidade de plantas na Amazônia Central, por meio da determinação do número de espécies vegetais que eles dispersaram durante um período de 25 meses. Eu encontrei que a presença e quantidade de fezes afetaram tanto o comportamento de roedores, como o comportamento dos besouros coprófagos. A taxa de predação de sementes foi elevada quando estas estavam associadas à presença e à maior densidade de fezes. O mesmo número de sementes foi enterrado pelos besouros coprófagos de feces defecadas de forma agregada e de forma dispersa. No entanto, um número maior de sementes foi enterrado por besouros quando estavam dentro de uma pilha grande de fezes, do que em pilhas menores. A densidade de sementes não teve efeito no comportamento dos roedores, nem no comportamento dos besouros. Os resultados indicam que cuidado deve ser tomado ao se categorizar animais como dispersores de sementes de alta ou baixa qualidade, antes de um exame cuidadoso dos fatores que afetam o destino das sementes dispersas seja feito. Os guaribas dispersaram as sementes de 137 espécies durante o período deste estudo. Este é o maior número já reportado para uma espécie de Allouata e, por esta razão, os guaribas devem ser considerados como dispersores muito prevalentes na comunidade vegetal da floresta de terra firme da Amazônia Central.
Nutritional Evaluation of Terrestrial Invertebrates as Traditional Food in Amazonia
Stefania Marconi, Pamela Manzi, Laura Pizzoferrato, Erika Buscardo, Hugo Cerda.
Danilo Lopez Hernandez, and Maurizio G. Paoletti
Abstract
In tropical areas worldwide, more than 1000 terrestrial species of invertebrates are used as food. For populations of Amazonian areas, different species of insects and other invertebrates serve as nourishing food sources. Here, we document the composition and nutritional quality of some invertebrates consumed in Venezuelan Amazonia, including termites (Isoptera) and earthworms (Glossoscolecidae) eaten by the Ye'Kuana (Makiritare) and caterpillars (Lepidoptera) and grubs (Coleoptera: Scarabaeidae) consumed by the Yanomamo. Consumption of 100 g of any of these invertebrates contributed 1.2-9.4 percent of the daily fat requirement and 26-144 percent of the protein daily requirement for an adult male. The sample of caterpillars regularly eaten by these peoples was rich in beta carotene (provitamin A), and a 100 g ingestion guaranteed 323 percent of the recommended daily intake of vitamin A. The greatest amount of alpha tocopherol was provided by the consumption of the smoked earthworms (36.7%). Earthworms and termites contained high levels of sterols, mainly cholesterol. The consumption of these animals by tropical human populations represents not only an important traditional habit but also, considering their nutritional composition, a substantial contribution to the human diet.
Are Tropical Highland Frog Calls Cold-adapted? The Case of the Andean Frog Hyla labiali
Horst Lüddecke and Oscar Raúl Sánchez
Abstract
Across a wide range of temperatures established in the laboratory, we tape-recorded the advertisement calls of 76 freshly caught Hyla labialis males from three elevationally separated populations in the Eastern Andes of Colombia. Each male was tested once at a single temperature and returned to his capture site after measurement of his snout-vent length. We measured and averaged three characteristics of five to ten successive calls for each individual: number of pulses per call, pulse repetition rate, and call duration. We found that calling activity occurred within temperature ranges that overlapped among frogs from different elevations, but widened and shifted downward with increasing altitude of origin. Males from all sites called at temperatures higher, but not lower, than those naturally occurring during their nightly activity period. No decline in vocal performance was apparent when frogs extended their calling activity into the range of high temperatures selected for basking. Both snout-vent length and temperature affected pulse repetition rate and call duration, while the number of pulses per call was temperature-independent. Compared to the smaller males from lower elevations, the larger, high-mountain males had calls with significantly more pulses, a lower pulse repetition rate, and longer duration. Within each population, rising temperatures caused pulse repetition rate to increase and call duration to decrease significantly, whereas the number of pulses per call remained unchanged. Pulse repetition rate of highland males was the factor least affected by temperature, and it was less sensitive to night temperatures than to day temperatures. This, together with their capacity to call at low temperatures, suggests that highland frog calls are cold adapted.
Effects of Selective Logging on Populations of Two Tropical Understory Herbs in an Amazonian Forest
Flávia Regina Capellotto Costa, Cristina Senna, and Erika Matsuno
Nakkazono
Abstract
This study examined the effects of (1) time elapsed after logging and (2) logging intensity on the total, juvenile, and adult densities, and on reproduction of Calathea altissima and Ischnosiphon arouma (Marantaceae), two monocot herb species in the understory of Central Amazonian forests. Logging was carried out experimentally at various intensities in eight plots (4 ha each) during 1987 and three plots in 1993. Five plots were left as experimental controls. In 1998, total and adult densities of the two species were greater in the plots logged 11 years before than in controls. For I. arouma, total and adult densities were also higher in the plots logged 5 years before; however, juvenile densities were less affected. The intensity of logging influenced adult density but not total or juvenile densities. Densities of reproductive individuals of both species were higher in the logged areas and increased with logging intensity. The effects of time after logging and logging intensity on reproduction were indirect due to the greater number of adult plants in those areas. The observed effects were probably mediated by changes in canopy cover in logged areas. Greater light intensities in logging gaps, roads, and their margins may lead to increased reproduction, recruitment, growth, and survival, which in turn can lead to increased plant density. These results indicate that logging has long-term effects on understory plant populations.
Este estudo examinou os efeitos da intensidade de corte e do tempo pós-corte sobre as densidades de jovens, de adultos e total, e sobre a reprodução de Calathea altissima e Ischnosiphon arouma (Marantaceae), duas espécies de monocotiledôneas herbáceas que habitam o sub-bosque de florestas da Amazônia Central. O corte foi aplicado experimentalmente em várias intensidades em 8 parcelas de 4 ha em 1987, e em 3 parcelas em 1993. Cinco parcelas foram deixadas como controles. A densidade total e de adultos de ambas as espécies foram maiores nas parcelas com 11 anos pós-corte do que nos controles. Para I. arouma, a densidade total e de adultos também foram maiores nas parcelas com 5 anos pós-corte do que nos controles. No entanto, a densidade de jovens foi menos afetada. A intensidade de corte afetou a densidade de adultos, mas não afetou a densidade total ou a densidade de jovens de ambas as espécies. A densidade de indivíduos férteis de ambas as espécies foi maior nas áreas de corte e aumentou com a intensidade de corte. No entanto, os efeitos do tempo pós-corte e da intensidade de corte na reprodução destas espécies foram indiretos, devido ao maior número de indivíduos adultos nestas áreas. Os efeitos observados foram provavelmente mediados pelas mudanças na cobertura do dossel nas áreas de corte. A maior intensidade de luz nas clareiras, estradas, e respecivas bodas podem levar ao aumento na reprodução, recrutamento, crescimento, e sobrevivência, que por sua vez levam ao aumento na densidade das plantas. Estes resultados deste trabalho indicam que o corte de madeira pode causar mudanças de longa duração nas populações de plantas do sub-bosque.
Dung Beetle Communities and Seed Dispersal in Primary Forest and Disturbed Land in Amazonia
Kevina Vulinec
Abstract
Seeds from tropical fruiting trees ingested and defecated on the soil surface by primary dispersers (such as primates) are vulnerable to destruction from rodents, insects, and fungi. Burial by dung beetles as an incidental result of their feeding and nesting activities often provides these seeds with refugia from attack. To examine the effect of habitat disturbance on the dung beetle communities involved in this process, I surveyed dung beetles at three sites in the Amazon basin, in the states of Pará, Amazonas, and Rondônia, Brazil. Through principal component analysis on measurements of size and behavioral characters of beetles, I determined the relative quality of beetle species as seed dispersers (dispersal defined as horizontal or vertical movement of seeds) and ranked them into seed dispersal guilds. I used correspondence analysis to examine in what habitats (primary forest or varying degrees of disturbed habitat) these guilds were abundant. Most guilds decreased with increasing habitat disturbance, but one guild made up of large nocturnal burrowers (primarily Dichotomius) became more abundant with increasing disturbance (up to the level of highest disturbance surveyed), at which point all dung beetle species became scarce. Clear-cuts had lower species richness, lower abundance, and lower biomass than forested areas. These results imply that clear-cutting is detrimental to all seed dispersal dynamics in tropical rain forests, but that some levels of disturbance allow enough disperser activity to preserve this ecosystem function.
As sementes de árvores tropicais ingeridas por dispersores primários (como primatas, por exemplo) e depois defecadas na superficie do solo são vulneráveis à destruição por roedores, insetos e fungos. Como resultado de seu hábito alimentar e de assentamento, os besouros coprófagos enterram as sementes, provendo refúgio a estes ataques. A fim de examinar o efeito da perturbação do habitat nas comunidades dos besouros coprófagos envolvidas no processo, besouros coprófagos foram estudados em três locais da bacia Amazônica: nos estados do Pará, Amazonas e Rondônia, nó Brasil. Pela análise do componente principal nas medições de tamanho e características de comportamento, foi determinada a qualidade relativa das espécies de besouros como dispersores de sementes (dispersão sendó aqui definida como ó movimento vertical ou horizontal das sementes). As espécies foram agrupadas de acordo com sua preferência de enterro das sementes e criou-se um ranking para estes grupos. Análise de correspondência foi utilizada para examinar em quais habitats (floresta primária ou locais com níveis variáveis de perturbação no ambiente) estes grupos de besouros eram abundantes. A maioria dos grupos diminuiu com o aumento da perterubação no ambiente, porém um grupo (composto de grandes besouros de galerias noturnos, principalmente Dichotomius) tornou-se mais abundante com o aumento da perturbação, até o nível mais alto de perturbação avaliado, quando todas as espécies de besouros ficaram escassas. As clareiras exibiram menor riqueza de espécies, menor abundância e menor biomassa que as áreas de floresta. Estes resultados sugerem que as clareiras são prejudiciais para toda a dinâmica de dispersão de sementes nas florestas tropicais, mas que alguns níveis de perturbação permitem atividade dispersora suficiente para preservar o funcionamento do ecossistema.
Factors Affecting the Small Mammal Community Inside and Outside Katavi National Park, Tanzania
T. M. Caro
Abstract
Small mammal trapping showed that a minimum of 12 species live in and around Katavi National Park in western Tanzania. Species richness and abundance were greater outside the park than inside, extending results of an earlier study. Species richness and abundance were not significantly associated with vegetation cover or plant biomass but were negatively correlated with seed diversity, seed biomass, and possibly small carnivore abundance. Unfortunately, small mammal diets are unknown in this ecosystem and it can be argued that carnivores are unlikely to reduce species diversity, casting doubt on the importance of these variables. While the factors causing small mammals to fare poorly in this protected area are not yet understood, reduced food availability remains the best candidate.