Four new species of Adenocalymma (Bignoniaceae) and a key to the species from southeastern Brazil

Four new species of Adenocalymma (Bignoniaceae, Bignonieae) from southeastern Brazil are described and illustrated: A. aurantiacum, characterized by dark orange and infundibuliform corolla; A. cinereum, characterized by shrubby habit, greyish inflorescence, infundibuliform corolla, and exserted stamens; A. gibbosum, characterized by gibbous and orange corolla and an inflorescence with dendritic trichomes; and A. sessile, characterized by sessile leaves and gibbous corolla. A discussion on the relationships of the new taxa and a key to all 29 species of Adenocalymma reported from southeastern Brazil are provided. © 2013 The Authors. Nordic Journal of Botany © 2013 Nordic Society Oikos.

Fruit color and contrast in seasonal habitats - a case study from a cerrado savanna

Communication contributes to mediate the interactions between plants and the animals that disperse their genes. As yet, seasonal patterns in plant-animal communication are unknown, even though many habitats display pronounced seasonality e.g. when leaves senescence. We thus hypothesized that the contrast between fruit displays and their background vary throughout the year in a seasonal habitat. If this variation is adaptive, we predicted higher contrasts between fruits and foliage during the fruiting season in a cerrado-savanna vegetation, southeastern Brazil. Based on a six-year data base of fruit ripening and a one-year data set of fruit biomass, we used reflectance measurements and contrast analysis to show that fruits with distinct colors differed in the beginning of ripening and the peak of fruit biomass. Black, and particularly red fruits, that have a high contrast against the leaf background, were highly seasonal, peaking in the wet season. Multicolored and yellow fruits were less seasonal, not limited to one season, with a bimodal pattern for yellow ones, represented by two peaks, one in each season. We further supported the hypothesis that seasonal changes in fruit contrasts can be adaptive because fruits contrasted more strongly against their own foliage in the wet season, when most fruits are ripe. Hence, the seasonal variation in fruit colors observed in the cerrado-savanna may be, at least partly, explicable as an adaptation to ensure high conspicuousness to seed dispersers. © 2013 The Authors.

Aranhas (Arachnida, Araneae) sobre bromélias em um remanescente de Mata Atlântica no estado do Espírito Santo: associações específicas, arquitetura das bromélias e estrutura de comunidades

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Uso de habitats e ecomorfologia de girinos na Serra da Mantiqueira, SP

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeito do uso do hábitat sobre a comunidade de Gerromorpha (Heteroptera) em uma área de transição Amazônia-cerrado, Mato Grosso, Brasil

Os Heteroptera aquáticos e semi-aquáticos consistem em três infra-ordens monofiléticas, os Gerromorpha, Nepomorpha e Leptopodomorpha. No Brasil, existe um número bastante reduzido de literatura sobre este grupo, onde o estado de Minas Gerais concentra o maior número de estudos. Este trabalho objetivou determinar o efeito da intensidade de uso da terra sobre a comunidade de heterópteros aquáticos, infra-ordem Gerromorpha. A área de estudo está localizada na Fazenda Tanguro, estado do Mato Grosso, em uma faixa de transição entre os biomas Amazônia e Cerrado. Foram realizadas quatro expedições nos meses de maio e julho, nos anos de 2006 e 2007. As coletas foram realizadas ao longo de seis riachos de primeira ordem localizados em três áreas diferentes: campo de soja, pastagem e mata contínua. Foram encontrados 5 famílias, 19 gêneros, 36 espécies e 13 morfoespécies de Gerromorpha. As curvas médias de acumulação de espécies para cada uma das três áreas de estudo não atingiram a assíntota ao final da adição de amostras, mas demonstraram uma clara tendência a estabilização, sugerindo que um aumento do esforço amostral aproximaria o número de espécies observadas da realidade do local de estudo. Embora a cobertura vegetal tenha sido significativamente diferente entre as três áreas estudadas (ANOVA, F2,45= 23,72; P < 0,001), o tipo de hábitat não influenciou no número de espécies de Gerromorpha (ANOVA F3,44= 0,77; P = 0,52). Sete espécies apresentaram diferenças significativas entre os hábitats. Os dois eixos do MDS baseados na composição das espécies não separaram as espécies quanto ao tipo de hábitat. Para a matriz de abundância, o eixo 1 (MANOVA; F2,45 = 16,27; P < 0,001) e o eixo 2 (MANOVA; F2,45 = 6,31; P = 0,004) diferenciaram as espécies que ocorreram na área de mata contínua. Um total de 57,14% das espécies coletadas é compartilhado pelas três áreas de estudo. A sensível redução no número de indivíduos registrados da área mais conservada (mata contínua) para as áreas degradadas (plantio de soja e pastagem, respectivamente) possivelmente está relacionada à perda de cobertura vegetal observada nas áreas degradadas. As espécies Brachymetra lata, Brachymetra sp 1, Cylindrostethus palmaris, Tachygerris celocis, Rhagovelia paulana, e Rhagovelia whitei podem ser consideradas espécies indicadoras de áreas florestadas; e Neogerris lubricus pode ser indicadora de ambientes sem cobertura vegetal.

Estudo comparativo das espécies de Saimiri voigt, 1831 (Primates, Cebidae) na reserva Mamirauá, Amazonas

Uma das dez espécies de primatas presentes na Reserva Mamirauá (RDSM), Saimiri vanzolinii, possui alguns limites de sua distribuição ainda indefinidos. Considera-se sua área de distribuição como uma das menores dentre os primatas neotropicais, com cerca de 950 Km². Duas outras formas presentes do gênero Saimiri ainda não têm a sua taxonomia esclarecida. O objetivo principal deste estudo foi determinar características ecológicas e comportamentais que possam atuar como mecanismos de isolamento reprodutivo entre as formas de Saimiri na área da RDSM. Foram amostradas diversas áreas na RDSM, próximas às margens de rios e canais, coincidindo com as bordas da distribuição de S. vanzolinii. Ao longo do trajeto foram marcadas coordenadas geográficas no GPS. Em todos os pontos com presença de unidades sociais de Saimiri foram identificados a localidade, a forma de Saimiri, o número de indivíduos, hábitat, marca d’água e primatas associados. As vocalizações do tipo “cackle” foram gravadas oportunamente. Foram percorridos 218 Km, registrando-se 328 unidades sociais do gênero: 41% de Saimiri vanzolinii, 30% de Saimiri sp.1 e 29% de Saimiri sp.2. Um dos animais. Áreas de simpatria e sintopia também foram localizadas. Saimiri vanzolinii ocupa uma área com 106 Km² a menos do que o conhecido, abrangendo apenas 870 Km², o que confirma a menor área de distribuição de um primata neotropical. Dentre os resultados mais relevantes que podem determinar o isolamento reprodutivo entre as social, uso do estrato vertical e freqüências máximas da vocalização “cackle”. Saimiri tamanho médio de unidade social de Saimiri sp.2, na estação da seca, foi menor que para as outras formas. Quanto ao uso do estrato vertical, Saimiri vanzolinii ocupou níveis mais baixos, na estação da seca, do que Saimiri sp.1. Todas as formas ocuparam estratos mais baixos na estação da cheia. As freqüências máximas da vocalização “cackle” apresentaram diferenças entre as três formas, sendo Saimiri vanzolinii

Padrões espaciais em comunidades de aves amazônicas

A Amazônia é a região que apresenta a maior riqueza de aves do planeta. Para que se possa entender a origem e os processos de manutenção dessa diversidade, são necessários estudos detalhados sobre os padrões de variação espacial das assembléias de aves por meio de comparações em diferentes escalas espaciais. Além disso, é essencial que se faça uma abordagem que integre os diversos fatores que podem estar interagindo e influenciando esses padrões. Esta tese é composta de três capítulos. No primeiro capítulo, a composição, as características ecológicas e os padrões de vulnerabilidade da avifauna da Estação Científica Ferreira Penna (ECFPn), Amazônia Oriental, são descritos. Uma lista de espécies atualizada para a área, com informações sobre o status de abundância, guilda trófica e tipo de hábitat, foi gerada. A vulnerabilidade das espécies foi acessada com base na avaliação dos padrões de raridade. No segundo capítulo, a avifauna da ECFPn é contextualizada regionalmente por meio da comparação da composição de espécies de diversos sítios representativos das áreas de endemismo definidas para aves na Amazônia. Foram consideradas diferentes categorias taxonômicas e ecológicas nessas análises, a fim de verificar se os padrões de distribuição diferem entre essas categorias e que fatores podem influenciar nos padrões apresentados. Por fim, o terceiro capítulo analisa a variação espacial da riqueza, abundância e similaridade em seis sítios de 100 ha ao longo de uma paisagem homogênea dominada por florestas de terra firme na ECFPn. As variações encontradas foram correlacionadas com a distância geográfica e com a estrutura da vegetação. A combinação desses estudos representa a ampliação do conhecimento sobre a avifauna na área de endemismo Xingu, além de utilizar pela primeira vez abordagens originais para investigar os padrões de distribuição da avifauna na Amazônia em várias escalas espaciais.

Rastreabilidade em pescado: influência do grau de domesticação, origem e sazonalidade na diferenciação de peixes

Pós-graduação em Aquicultura - FCAV

Decay of interspecific avian flock networks along a disturbance gradient in Amazonia

Our understanding of how anthropogenic habitat change shapes species interactions is in its infancy. This is in large part because analytical approaches such as network theory have only recently been applied to characterize complex community dynamics. Network models are a powerful tool for quantifying how ecological interactions are affected by habitat modification because they provide metrics that quantify community structure and function. Here, we examine how large-scale habitat alteration has affected ecological interactions among mixed-species flocking birds in Amazonian rainforest. These flocks provide a model system for investigating how habitat heterogeneity influences non-trophic interactions and the subsequent social structure of forest-dependent mixed-species bird flocks. We analyse 21 flock interaction networks throughout a mosaic of primary forest, fragments of varying sizes and secondary forest (SF) at the Biological Dynamics of Forest Fragments Project in central Amazonian Brazil. Habitat type had a strong effect on network structure at the levels of both species and flock. Frequency of associations among species, as summarized by weighted degree, declined with increasing levels of forest fragmentation and SF. At the flock level, clustering coefficients and overall attendance positively correlated with mean vegetation height, indicating a strong effect of habitat structure on flock cohesion and stability. Prior research has shown that trophic interactions are often resilient to large-scale changes in habitat structure because species are ecologically redundant. By contrast, our results suggest that behavioural interactions and the structure of non-trophic networks are highly sensitive to environmental change. Thus, a more nuanced, system-by-system approach may be needed when thinking about the resiliency of ecological networks.

Typification of some species of Sloanea (Elaeocarpaceae)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Evolution of the Morphology of Bottom Walking Turtles

Ecomorphology and functional morphology are two distinct disciplines within biology that are often conflated and erroneously used interchangeably. By investigating the morphological distinctiveness of bottom-walking turtles relative to aquatic swimmers and terrestrial walkers, we can disentangle the effects of ecology and performance. Shell morphology, tail length, digit length, webbing length, and integumental differences were examined using dry and wet preserved specimens. Bottom-walkers were hypothesized to be distinct in all measurements. Instead, bottom-walkers were typically distinct from terrestrial taxa but not aquatic taxa, although for integumentary structures, only bottom-walkers were found to have significantly more integumentary structures than terrestrial turtles. This demonstrates that, despite sometimes highly differential locomotor modes, ecology, defined as habitat type, can show a stronger morphological signal than function.

Effect of Methodological and Ecological Approaches on Heterogeneity of Nest-Site Selection of a Long-Lived Vulture

The application of scientific-based conservation measures requires that sampling methodologies in studies modelling similar ecological aspects produce comparable results making easier their interpretation. We aimed to show how the choice of different methodological and ecological approaches can affect conclusions in nest-site selection studies along different Palearctic meta-populations of an indicator species. First, a multivariate analysis of the variables affecting nest-site selection in a breeding colony of cinereous vulture (Aegypius monachus) in central Spain was performed. Then, a meta-analysis was applied to establish how methodological and habitat-type factors determine differences and similarities in the results obtained by previous studies that have modelled the forest breeding habitat of the species. Our results revealed patterns in nesting-habitat modelling by the cinereous vulture throughout its whole range: steep and south-facing slopes, great cover of large trees and distance to human activities were generally selected. The ratio and situation of the studied plots (nests/random), the use of plots vs. polygons as sampling units and the number of years of data set determined the variability explained by the model. Moreover, a greater size of the breeding colony implied that ecological and geomorphological variables at landscape level were more influential. Additionally, human activities affected in greater proportion to colonies situated in Mediterranean forests. For the first time, a meta-analysis regarding the factors determining nest-site selection heterogeneity for a single species at broad scale was achieved. It is essential to homogenize and coordinate experimental design in modelling the selection of species' ecological requirements in order to avoid that differences in results among studies would be due to methodological heterogeneity. This would optimize best conservation and management practices for habitats and species in a global context.

Spatial and temporal patterns in ungulate-ecosystem interactions

Ungulates are important components of a variety of ecosystems worldwide. This dissertation integrates aspects of ungulate and forest ecology to increase our understanding of how they work together in ways that are of interest to natural resource managers, educators, and those who are simply curious about nature. Although animal ecology and ecosystem ecology are often studied separately, one of the general goals of this dissertation is to examine how they interact across spatial and temporal scales. Forest ecosystems are heterogeneous across a range of scales. Spatial and temporal habitat use patterns of forest ungulates tend to be congregated in patches where food and/or cover are readily available. Ungulates interact with ecosystem processes by selectively foraging on plants and excreting waste products in concentrated patches. Positive feedbacks may develop where these activities increase the value of habitat through soil fertilization or the alteration of plant chemistry and architecture. Heterogeneity in ecosystem processes and plant community structure, observed at both stand and local scales, may be the integrated outcome of feedbacks between ungulate behavior and abiotic resource gradients. The first chapter of this dissertation briefly discusses pertinent background information on ungulate ecology, with a focus on white-tailed deer (Odocoileus virginianus) in the Upper Great Lakes region and moose (Alces acles) in Isle Royale National Park, Michigan, USA. The second chapter demonstrates why ecological context is important for studying ungulate ecology in forest ecosystems. Excluding deer from eastern hemlock (Tsuga canadensis) stands, which deer use primarily as winter cover, resulted in less spatial complexity in soil reactive nitrogen and greater complexity in diffuse light compared to unfenced stands. The spatial patterning of herbaceous-layer cover was more similar to nitrogen where deer were present, and was a combination of nitrogen and light within deer exclosures. This relationship depends on the seasonal timing of deer habitat use because deer fertilize the soil during winter, but leave during the growing season. The third chapter draws upon an eight-year, 39-stand data set of deer fecal pellet counts in hemlock stands to estimate the amount of nitrogen that deer are depositing in hemlock stands each winter. In stands of high winter deer use, deer-excreted nitrogen inputs consistently exceeded those of atmospheric deposition at the stand scale. At the neighborhood scale, deer-excreted nitrogen was often in excess of atmospheric deposition due to the patchy distribution of deer habitat use. Spatial patterns in habitat use were consistent over the eight-year study at both stand and neighborhood scales. The fourth chapter explores how foraging selectivity by moose interacts with an abiotic resource gradient to influence forest structure and composition. Soil depth on Isle Royale varies from east to west according to glacial history. Fir saplings growing in deeper soils on the west side are generally more palatable forage for moose (lower foliar C:N) than those growing in shallower soils on the east side. Therefore, saplings growing in better conditions are less likely to reach the canopy due to moose browsing, and fir is a smaller overstory component on the west side. Lastly, chapter five focuses on issues surrounding eastern hemlock regeneration failure, which is a habitat type that is important to many wildlife species. Increasing hemlock on the landscape is complicated by several factors including disturbance regime and climate change, in addition to the influence of deer.

The ecological consequences of megafaunal loss: giant tortoises and wetland biodiversity

The giant tortoises of the Galapagos have become greatly depleted since European discovery of the islands in the 16th Century, with populations declining from an estimated 250000 to between 8000 and 14000 in the 1970s. Successful tortoise conservation efforts have focused on species recovery, but ecosystem conservation and restoration requires a better understanding of the wider ecological consequences of this drastic reduction in the archipelago's only large native herbivore. We report the first evidence from palaeoecological records of coprophilous fungal spores of the formerly more extensive geographical range of giant tortoises in the highlands of Santa Cruz Island. Upland tortoise populations on Santa Cruz declined 500-700years ago, likely the result of human impact or possible climatic change. Former freshwater wetlands, a now limited habitat-type, were found to have converted to Sphagnum bogs concomitant with tortoise loss, subsequently leading to the decline of several now-rare or extinct plant species.

The cobblers stick to their lasts: pollinators prefer native over alien plant species in a multi-species experiment

The majority of plant species rely, at least partly, on animals for pollination. Our knowledge on whether pollinator visitation differs between native and alien plant species, and between invasive and non-invasive alien species is still limited. Additionally, because numerous invasive plant species are escapees from horticulture, the transition from human-assisted occurrence in urbanized habitats to unassisted persistence and spread in (semi-)natural habitats requires study. To address whether pollinator visitation differs between native, invasive alien and non-invasive alien species, we did pollinator observations for a total of 17 plant species representing five plant families. To test whether pollinator visitation to the three groups of species during the initial stage of invasion depends on habitat type, we did the study in three urbanized habitats and three semi-natural grasslands, using single potted plants. Native plants had more but smaller flower units than alien plants, and invasive alien plants had more but smaller flowers than non-invasive alien plants. After accounting for these differences in floral display, pollinator visitation was higher for native than for alien plant species, but did not differ between invasive and non-invasive alien plant species. Pollinator visitation was on average higher in semi-natural than in urbanized habitats, irrespective of origin or status of the plant species. This might suggest that once an alien species has managed to escape from urbanized into more natural habitats, pollinator limitation will not be a major barrier to establishment and invasion.