Morphology and initial growth in the germination of dictyosperma album (bory) h. wendl. & drude ex scheffer (Arecaceae) seeds

Dictyosperma album, commonly known as Princess Palm, due to its graceful appearance and its ability to withstand strong hurricane force winds is largely used in landscaping areas. The aim of this work was to describe the diaspores (seeds with the stuck endocarp) morphology and the stages of the D. album germination process. Therefore we concluded that the species germination is of the tubular remote type and begins with the opening of a circular operculum in the fruit endocarp, through which emerges a bulbous and hollow structure, named cotyledonal petiole or embryophore. With the embryo growth, the endosperm is being gradually consumed. The embryo grows approximately up to 10 cm, when the dilation begins in its extremity. Starting from this extensive area, it begins the growth of the primary root and the opening of a longitudinal rift, through which emerges the aerial part that is composed by two sheaths that cover the first juvenile leaf. In this phase, the emergence of secondary roots is observed. The first leaves are simple and lance-shaped.

Morfo-anatomia e envelhecimento acelerado em diásporos de oenocarpus bacaba Mart. - Arecaceae

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Germinação e morfologia de sementes de Roystonea regia (Kunth) O.F. Cook (Arecaceae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Morfologia e anatomia de Paspalum L. (Poaceae, Poales) e suas implicações taxonômicas

Pós-graduação em Ciências Biológicas (Biologia Vegetal) - IBRC

Aspectos ecológicos do bacu-pedra Lithodoras dorsalis (Valenciennes, 1840) (Siluriformes: Doradidae) na foz amazônica, Brasil

O objetivo deste estudo foi investigar aspectos alimentares do bacu-pedra Lithodoras dorsalis (Siluriformes: Doradidae) na região da foz Amazônica e seu possível papel como dispersor de sementes. As coletas dos espécimes de L. dorsalis foram realizadas mensalmente de julho de 2010 a junho de 2011, totalizando 371 espécimes capturados. Por meio da análise das gônadas constatou-se que todos os espécimes coletados encontravam-se imaturos, caracterizando-os como jovens. O comprimento padrão médio foi igual a 15,40cm (DP ± 4,87cm) e a massa total média igual a 94g (DP ± 149,45g). A dieta da espécie foi composta por 28 itens alimentares, dos quais 16 foram de origem alóctone e 12 de origem autóctone, o que define a espécie como herbívora, com forte tendência à frugivoria devido aos altos valores de importância de frutos e sementes presente em sua dieta. Houve diferença entre os períodos pluviométricos com relação a sazonalidade alimentar, sendo o final do período de transição entre chuva estiagem e o início da estiagem os períodos de menor e maior atividade alimentar, respectivamente. Porém, a importância dos itens consumidos entre os períodos pluviométricos não apresentou diferença, sendo que a dieta da espécie foi similar durante todo o período de coleta. Quanto à ictiocoria, dos 371 espécimes de Lithodoras dorsalis coligidos, 268 (74,93%) apresentaram frutos e sementes em seus estômagos (principalmente açaí Euterpe oleracea Mart., aninga Montrichardia linifera (Arruda) Schott e buriti Mauritia flexuosa Mart). Para as análises de germinação foram utilizadas sementes do açaí Euterpe oleracea Mart. e da aninga Montrichardia linifera (Arruda) Schott por atingirem quantidade suficiente de amostras. A partir da análise do trato digestivo do bacu-pedra constatou-se que todas as sementes de Euterpe oleracea Mart. apresentavam-se intactas, havendo um aumento no desempenho germinativo, porém o mesmo não ocorreu para as estruturas germinativas de aninga Montrichardia linifera (Arruda) Schott, algumas das quais apresentaram-se destruídas devido ao processo digestivo. Concluiu-se que Lithodoras dorsalis é um potencial dispersor do açaí Euterpe oleracea Mart. na Foz Amazônica, uma vez que há um aumento do desempenho germinativo das sementes. Foi constatado um acréscimo na quantidade de frutos e sementes consumidos à medida que os indivíduos aumentam o tamanho corporal. Por fim, tendo em vista o alto consumo de material de origem alóctone por Lithodoras dorsalis, destaca-se a importância da vegetação ripária por fornecer itens como frutos essenciais na dieta desta e de outras espécies de peixes neotropicais. Além disso, Lithodoras dorsalis parece fazer parte do mecanismo de algumas espécies de plantas para a colonização de novas áreas (ictiocoria), como no caso do açaí Euterpe oleracea Mart.

Seleção de progênies de Myracrodruon urundeuva (F.F. & M.F. Allemão) baseada em caracteres fenológicos e de crescimento para reconstituição de áreas de reserva legal

Pós-graduação em Agronomia - FEIS

Envelhecimento acelerado em diásporos de Oenocarpus bacaba (Arecaceae)

O objetivo do presente trabalho foi adequar o teste de envelhecimento acelerado para avaliar a qualidade fisiológica de diásporos de Oenocarpus bacaba Mart. (bacaba). Inicialmente, os diásporos foram expostos às temperaturas de 41; 43 e 45 ºC, durante 3; 6; 12; 24; 36; 48 e 72 h, com cerca de 100% de umidade relativa do ar. Foram considerados dois critérios de germinação: emissão da primeira bainha igual ou superior a 1cm e plântula normal. o teste de germinação foi realizado com 6 repetições de 20 diásporos, em temperatura de 30 ºC e fotoperíodo de 12 h. Pelos resultados preliminares, observou-se que os lotes de diásporos de bacaba podem ser separados em níveis de vigor por meio do envelhecimento acelerado, em 43ºC e com cerca de 100% de umidade relativa do ar, por 48 h. os quatro lotes de diásporos foram então submetidos, num segundo experimento, a 43 ºC por 24; 48 e 72 h, sendo adotada como critério de germinação a emissão de primeira bainha. em 45 ºC, a porcentagem de germinação foi drasticamente reduzida após 12 h. Não houve diferenças significativas entre os critérios de germinação utilizados. Os lotes de diásporos foram separados em diferentes níveis de vigor após 48 e 72 h de exposição a 43 ºC. de acordo com os resultados obtidos, sugere-se o uso de primeira bainha como critério de germinação e período de envelhecimento de 48 h a 43 ºC, para a avaliação da qualidade fisiológica de diásporos de bacaba.

The importance of landscape structure for seed dispersal in rain forest fragments

Questions What are the main features of the seed rain in a fragmented Atlantic forest landscape? Can seed rain species attributes (life form, dispersal mode, successional status) relate to the spatial arrangement (size and number of fragments, edge density and presence of corridor) of forest fragments in the landscape? How does the rain forest landscape structure affect the seed rain? Location Atlantic rainforest, Sao Paulo State, Southeastern Brazil. Methods Seed rain samples were collected monthly throughout 1yr, counted, identified and classified according to species dispersal mode, successional status and life form. Seed rain composition was compared with woody species near the seed traps. Relationships between seed rain composition and landscape spatial arrangement (fragment area, presence of corridor, number of fragments in the surroundings, proximity of fragments, and edge density) were tested using canonical correspondence analysis (CCA). Results We collected 20142 seeds belonging to 115 taxa, most of them early successional and anemochorous trees. In general, the seed rain had a species composition distinct from that of the nearby forest tree community. Small isolated fragments contained more seeds, mainly of anemochorous, epiphytic and early-successional species; large fragments showed higher association with zoochorous and late-successional species compared to small fragments. The CCA significantly distinguished the species dispersal mode according to fragment size and isolation, anemochorous species being associated to small and isolated fragments, and zoochorous species to larger areas and fragment aggregation. Nevertheless, a gradient driven by proximity (PROX) and edge density (ED) segregated lianas (in the positive extremity), early successional and epiphyte species (in the negative end); large fragments were positively associated to PROX and ED. Conclusions The results highlight the importance of the size and spatial arrangement of forest patches to promote habitat connectivity and improve the flux of animal-dispersed seeds. Landscape structure controls seed fluxes and affects plant dispersal capacity, potentially influencing the composition and structure of forest fragments. The seed rain composition may be used to assess the effects of landscape spatial structure on plant assemblages, and provide relevant information for biodiversity conservation.

Comparing the establishment of an invasive and an endemic palm species in the Atlantic rainforest

Background: Biological invasions are one of the major causes of biodiversity loss, yet remain rather understudied in tropical environments. The Australian palm tree Archontophoenix cunninghamiana was introduced into Brazil for ornamental purposes, but has become an invasive species in urban and suburban forest patches. The substitution of A. cunninghamiana by the native palm Euterpe edulis has been proposed as a management action. Aims: We aimed to evaluate the regeneration potential of these two palm species in an Atlantic forest remnant in south-eastern Brazil where both species occur. Methods: We compared seedling establishment and seed longevity of both species through seed sowing, and also measured the contribution of A. cunninghamiana to the local seed rain and seed bank. Results: Nearly half of the non-anemochoric diaspores collected from the seed rain belonged to A. cunninghamiana, which represented a high propagule pressure in the community. The distribution of the alien palm seeds in the seed rain correlated with the distribution of nearby young and adult individuals inside the forest. Neither A. cunninghamiana nor E. edulis appeared to have a persistent seed bank in a burial experiment; seedling survival experiments suggested a much better performance for A. cunninghamiana, which had a survival rate of ca. 30% compared with a rate of only 3.5% for E. edulis. Conclusions: The results suggest a higher regeneration capacity for the alien palm over the native species when co-occurring in a forest fragment. Management actions are thus proposed to reduce a potential biological invasion process.

Plant species decline due to abandonment of meadows cannot easily be reversed by mowing. A case study from the southern Alps

Abstract. We resumed mowing in two plots of ca. 100 m2 in an abandoned meadow dominated by Brachypodium pinnatum on the slope of Monte Generoso (Switzerland). We monitored species composition and hay yield using point quadrats and biomass samples. Species frequencies changed little during 10 yr (1988–1997) while hay yields showed large fluctuations according to mean relative humidity in April-June. We performed a seed-addition experiment to test whether the establishment of meadow species is limited by lack of diaspores or favourable microsites for germination and recruitment from the seed bank. We sowed ca. 12 000 seeds of 12 species originating from a nearby meadow individually in plots of a 4 × 6 unbalanced Latin square with four treatments, burning, mowing, mowing and removal of a layer of decayed organic matter, and a control. We monitored the fate of seedling individuals for 24 months. Seedlings of all species were established and survived for 12 months, 10 species survived during at least 24 months, some reached a reproductive stage. Species responded to different qualities of microsites provided by the different treatments thus required different regeneration niches. Spontaneous long-distance immigration was insignificant. We conclude that the former species composition of abandoned meadows cannot easily be restored by mowing alone because many plant species of meadows do not have persistent seed banks and immigration over distances of more than 25 m and successful establishment is very unlikely.

Seed Dispersal Spectrum of Woody Species in South Ecuadorian Dry Forests: Environmental Correlates and the Effect of Considering Species Abundance

This study examines the seed dispersal spectrum of the tropical dry forests of Southern Ecuador, in an effort to contribute to the knowledge of the complex dynamics of tropical dry forests. Seed dispersal spectrum was described for a total number of 160 species. Relationships of dispersal syndromes with plant growth form and climatic seasonality were explored. For a subset of 97 species, we determined whether dispersal spectrum changes when species abundance, in addition to species number, is taken into account. The same subset was used to relate dispersal syndromes with the environmental conditions. Zoochorous species dominated in the studied community. When considering the individual abundance of each species, however, anemochory was the prevalent dispersal syndrome. We found a significant difference in the frequency of dispersal syndromes among plant growth forms, with epizoochory only occurring in shrub species. The dispersal spectrum was dependent on climatic seasonality. The largest proportion of anemochorous species fructified during the dry season, while zoochorous diaspores dominated during the rainy season. A fourth-corner analysis indicated that the seed dispersal spectrum of Southern Ecuador dry forests is controlled by environmental conditions such as annual precipitation, annual temperature range or topography. Our results suggest that spatio-temporal changes in the environmental conditions may affect important ecological processes for dispersal. Thus, the predominance of one syndrome or another may depend on the spatial variation of environmental conditions.

Ecología de la dispersión de plantas en los bosques secos del suroccidente Ecuatoriano

La importancia del proceso de dispersión de semillas en la estructura y dinámica de los ecosistemas es ampliamente reconocida. Sin embargo, para los bosques tropicales estacionalmente secos los estudios relacionados con este proceso son aún escasos y dispersos en comparación con los bosques tropicales lluviosos. En este trabajo se estudió la importancia de los síndromes de dispersión de semillas en la estructuración de comunidades, mediante el análisis de los patrones de dispersión de semillas en el espacio y tiempo para comunidades de leñosas en los bosques secos del suroccidente Ecuatoriano. Esta área forma parte de la región Tumbesina, una de las áreas de endemismo más importantes del mundo, pero también uno de los hotspots más amenazados. El clima se caracteriza por una estación seca que va de mayo a noviembre y una estación lluviosa que se extiende desde diciembre a abril. Para toda esta zona se estima una temperatura promedio anual entre 20° y 26°C y una precipitación promedio anual entre 300 y 700 mm. El trabajo de campo se desarrolló entre febrero de 2009 y septiembre de 2012. El primer paso fue la recopilación de información sobre las especies leñosas nativas de los bosques secos del suroccidente de Ecuador, que permitiera asignar a cada especie a un síndrome de dispersión para determinar el espectro de síndromes de dispersión de semillas. Luego, utilizando la información disponible de 109 parcelas establecidas previamente a lo largo de cuatro cantones de la provincia de Loja que conservan bosques secos en buen estado, se analizó la relación entre el síndrome de dispersión y condiciones ambientales. La relación de los síndromes de dispersión con los patrones espaciales de las especies y con los patrones de la lluvia y banco de semillas se estudió dentro de una parcela permanente de 9 ha, en la Reserva Ecológica Arenillas. Dentro de esta parcela se estableció un transecto de aproximadamente 3,4 km, que se recorrió mensualmente para colectar excretas de cérvidos y analizar el rol de este grupo como dispersor de semillas. Una gran variedad de plantas en los bosques secos tropicales del suroccidente de Ecuador requirió la asistencia de animales para la dispersión de semillas. Sin embargo, un análisis del espectro de dispersión considerando no solo la riqueza, sino también la abundancia relativa de especies, permitió determinar que a pesar de la alta variedad de especies zoócoras, la mayor parte de la comunidad correspondía a individuos anemócoros, que no proveen ninguna recompensa para la dispersión por animales. Este patrón puede deberse a la abundancia relativa de hábitats adecuados para especies con diferente síndrome de dispersión. Las condiciones ambientales afectaron la estructura del espectro de dispersión en la comunidad de bosque seco neotropical estudiada. El análisis de la importancia relativa del síndrome de dispersión y de la heterogeneidad espacial en la formación de patrones espaciales de árboles adultos permitió determinar que la heterogeneidad ambiental ejercía un efecto adicional (y en algunos el único) en la formación de patrones agregados de la mayoría de especies estudiadas. Los resultados señalaron diferencias en los patrones espaciales de las especies dependiendo del síndrome de dispersión, pero también una gran variación en los patrones espaciales incluso entre especies del mismo síndrome de dispersión. El análisis simultáneo de los patrones de la lluvia de semillas y banco de semillas de una comunidad de leñosas y su relación con la vegetación establecida indicaron que la lluvia de semillas era temporalmente variable en número de especies y abundancia de semillas, y dependía del síndrome de dispersión. El síndrome de dispersión también influyó en la formación de bancos de semillas, siendo las especies con capacidad de dispersión limitada (autócoras) las de mayor riqueza de especies y abundancia de semillas. Los cérvidos también se consideraron como un elemento clave en el proceso de dispersión de semillas. Al menos ocho especies leñosas fueron dispersadas legítimamente vía endozoócora. La mayoría de las especies dispersadas presentaron diásporas sin adaptaciones obvias para la dispersión, por lo que la ingestión de semillas por cérvidos se constituye en una vía potencial para la dispersión de sus semillas a largas distancias y, con ello, mejora la posibilidad de colonizar nuevos sitios y mantener el flujo genético. Los resultados de este estudio aportan nuevas evidencias para el entendimiento de la importancia de los procesos de dispersión de semillas en la estructura de los bosques secos neotropicales. Uno de los principales hallazgos a partir de estos cuatro capítulos es que los patrones espaciales de las especies, así como las estrategias que utilizan para dispersarse y hacer frente a las condiciones adversas (es decir, lluvia o banco de semillas) llevan consigo un efecto del síndrome de dispersión, y que la intensidad ese efecto depende a la vez de las condiciones ambientales del lugar. ABSTRACT The importance of seed dispersal process in the estructuring and ecosystem dynamic is widely recongnized. However, for seasonally tropical dry forest studies related to this process are still scarce and scattered compared to tropical rain forests. The present research deals with the importance of seed dispersal syndromes as a driver in the community structure, focusing its attention to temporal and spatial patterns of seed dispersal in woody communities of seasonally dry forest at Southwestern Ecuador. This area is part of the Tumbesian region, one of the most important areas of endemism, but also one of the most threatened areas around the world. Climate is characterized by a dry season from May to November, and a rainy season from December to April. For the whole area an average temperature between 20 ° and 26 ° C, and an average annual rainfall between 300 and 700 mm are estimated. Fieldwork was carried out between February 2009 and September 2012. During a first step information about native woody species of dry forests of southwestern Ecuador was gathered, enabling to assign a dispersal syndrome to each species to determine the seed dispersal spectrum. In a second step, available information from 109 established plots along four municipalities in Loja province, which hold the highest and best conserved dry forest remanants, was analyzed to establish the relationship between dispersal syndromes and environmental conditions. The relationships between dispersal syndromes and species spatial patterns; and between dispersal syndromes and seed rain and seed bank patterns, were studied within a permanent plot of 9 ha, in the Arenillas Ecological Reserve. Within this plot one transect of approximately 3.4 km was set to collect monthly deer droppings, which were used to latter analyze the rol of this group as seed dispersers. The results showed that a large variety of plants in tropical dry forest of Southwestern Ecuador require animal assistance to dispers their seeds. However, an analysis of seed dispersal spectrum considering not only species richness, but also the relative abundance of species, allowed to determine that despite the high variety of zoochorous species, most individuals in the community corresponds to anemochoruos species. This shift may be due to the relative abundance of habitats that are suitable for species with different dispersal syndromes. Moreover, quantitative data analysis showed that environmental conditions affect the structure of seed dispersal spectrum in the studied community. The analysis of relative importance of dispersal syndrome, and the environmental heterogeneity on formation of adult trees spatial patterns, indicated that environmental heterogeneity exert an additional (or was the only) effect limiting the distribution of most species in this forest. The findings showed differences in spatial patterns related to dispersal syndrome, but also showed a large variation in spatial patterns even among species sharing the same dispersal syndrome. Simultaneous analysis of seed rain and seed bank patterns of a woody community, and their relationship with established vegetation, suggested that seed rain is temporally variable in species number and seeds abundance, and that variation is related to the dispersal syndrome. Dispersal syndrome also influenced on the formation of seed banks, being species with limited dispersal abilities (autochorous) the ones with highest species richness and seed abundance. Deer were found as a key element in the seed dispersal process. At least to eight woody species were dispersed legitimately by ingestion. Diaspores of most dispersed species had no obvious adaptations to seed dispersal, therefore, seed ingestion by deer represents a potential pathway for long-distance dispersal, and hence, improves the chances to colonizing new sites and to maintain gene flow. Overall, these results provide new evidence for understanding the importance of seed dispersal processes in the structure of Neotropical dry forests. One of the major findings from these four chapters is that spatial patterns of species, and the strategies used to disperse their seeds and to deal with the adverse conditions (i.e. seed rain or seed bank) are related with dispersal syndromes, and the intensity of that relation depends in turn, on environmental conditions.

The mosses of Terra Nova National Park, Eastern Newfoundland, a bryofloristic analysis and interpretation

The known moss flora of Terra Nova National Park, eastern Newfoundland, comp~ises 210 species. Eighty-two percent of the moss species occurring in Terra Nova are widespread or widespread-sporadic in Newfoundland. Other Newfoundland distributional elements present in the Terra Nova moss flora are the northwestern, southern, southeastern, and disjunct elements, but four of the mosses occurring in Terra Nova appear to belong to a previously unrecognized northeastern element of the Newfoundland flora. The majority (70.9%) of Terra Nova's mosses are of boreal affinity and are widely distributed in the North American coniferous forest belt. An additional 10.5 percent of the Terra Nova mosses are cosmopolitan while 9.5 percent are temperate and 4.8 percent are arctic-montane species. The remaining 4.3 percent of the mosses are of montane affinity, and disjunct between eastern and western North America. In Terra Nova, temperate species at their northern limit are concentrated in balsam fir stands, while arctic-montane species are restricted to exposed cliffs, scree slopes, and coastal exposures. Montane species are largely confined to exposed or freshwater habitats. Inability to tolerate high summer temperatures limits the distributions of both arctic-montane and montane species. In Terra Nova, species of differing phytogeographic affinities co-occur on cliffs and scree slopes. The microhabitat relationships of five selected species from such habitats were evaluated by Discriminant Functions Analysis and Multiple Regression Analysis. The five mosses have distinct and different microhabitats on cliffs and scree slopes in Terra Nova, and abundance of all but one is associated with variation in at least one microhabitat variable. Micro-distribution of Grimmia torquata, an arctic-montane species at its southern limit, appears to be deterJ]lined by sensitivity to high summer temperatures. Both southern mosses at their northern limit (Aulacomnium androgynum, Isothecium myosuroides) appear to be limited by water availability and, possibly, by low winter temperatures. The two species whose distributions extend both north and south or the study area (Encalypta procera, Eurhynchium pulchellum) show no clear relationship with microclimate. Dispersal factors have played a significant role in the development of the Terra Nova moss flora. Compared to the most likely colonizing source (i .e. the rest of the island of Newfoundland), species with small diaspores have colonized the study area to a proportionately much greater extent than have species with large diaspores. Hierarchical log-linear analysis indicates that this is so for all affinity groups present in Terra Nova. The apparent dispersal effects emphasize the comparatively recent glaciation of the area, and may also have been enhanced by anthropogenic influences. The restriction of some species to specific habitats, or to narrowly defined microhabitats, appears to strengthen selection for easily dispersed taxa.

Estratégias de dispersão de sementes no bioma Cerrado : considerações ecológicas e filogenéticas

Tese (doutorado)—Universidade de Brasília, Instituto de Ciências Biológicas, Departamento de Botânica, Programa de Pós-Graduação em Botânica, 2016.