Alterações na dinâmica e demografia de árvores tropicais após fragmentação florestal na Amazônia Central

Deforestation in the Brazilian Amazon is still increasing, transforming areas covered once by continuous forest in agricultural fields, pastures and patched forests. Few years after clearance, a large part of these areas will be abandoned and a natural revegetation will take place. In forest remnants, changes in the demography and dynamics of these isolated tree communities will start immediately, known by a series of studies on a large range of subjects, however less is known about changes on the species-specific level of the trees. This study, in a general approach, was focused on the demography and dynamics of the 20 most abundant tree species occurring in continuous forests and three 10 ha forest fragments North of Manaus, Brazil, 16 years after isolation. In both environments, a negative population growth was verified for most of the selected species. In fragmented forests, a hyper-dynamism was registered characterized by an increase in mortality and recruitment and consequently an increase in turnover. A population modeling applied for the next seven thousand years did not indicate any local extinction for these abundant specie in both environments, however did preview a substantial change in the structure of the forest fragments with a reduction in the canopy height. In a more specific approach, this study looked at the effect of forest fragmentation on seed and seedling ecology of the selected species Minquartia guianensis Aubl. (Olacaceae black manwood). Seed dispersal by birds seemed to be crucial for germination success and seed predation was higher in fragmented forests. Seedling growth in height was extremely slow and in the second year after germination mean increment was higher in fragmented forests, probably due to lighter environment. The growth simulation for a Minquartia guianensis seedling revealed that would be necessary 30 to 150 years for one individual to reach 10 cm DBH. Results provided by this study may be useful for conservation of biodiversity, management of forest fragments and achievement of forest exploitation sustainability.O desmatamento na Amazônia voltou a crescer nos últimos anos, transformando florestas contínuas em campos agrícolas, pastagens e fragmentos florestais. Em poucos anos, muitas destas áreas são abandonadas e iniciam naturalmente um processo de regeneração florestal. Por sua vez, fragmentos florestais remanescentes iniciarão mudanças na demografia e na dinâmica da comunidade de árvores, processos conhecidos por uma série de estudos; contudo, pouco se sabe sobre mudanças que podem ocorrem ao nível espécie-específico. Este estudo, em uma abordagem ampla comparou a demografia e a dinâmica das 20 espécies arbóreas mais abundantes em florestas contínuas e em três fragmentos florestais de 10 ha ao Norte de Manaus, após 16 anos de isolamento. Um crescimento populacional negativo foi verificado para a maioria das espécies estudadas em ambos os ambientes. Porém, um hiperdinamismo foi registrado nas áreas fragmentadas, com aumento nas taxas de mortalidade e recrutamento, resultando em uma reposição populacional maior. Uma modelagem da dinâmica populacional associada ao efeito da fragmentação foi aplicada para os próximos sete mil anos. Os resultados não indicaram alguma tendência à extinção local para as 20 espécies selecionadas. Mas, estimou-se uma mudança substancial na estrutura das florestas fragmentadas, com uma redução da altura do dossel. Em uma abordagem mais específica, este estudo enfocou o efeito da fragmentação florestal na ecologia das sementes e plântulas de Minquartia guianensis Aubl. (Olacaceae acariquara-roxa). A dispersão primária dos propágulos, promovida pelas aves, parece ser essencial para a germinação das sementes e a predação de sementes exerceu um papel diferenciador entre os ambientes estudados. Nos fragmentos, a predação foi intensa e não poupou nem sementes inconspícuas. O crescimento das plântulas foi lento e no segundo ano foi maior nos fragmentos, provavelmente devido à maior oferta de luz. A simulação do crescimento das plântulas de acariquara-roxa revelou que para alcançar 10 cm de DAP, leva-se entre 30 e 150 anos. As informações geradas por este estudo podem ser úteis para a conservação da biodiversidade, o manejo de áreas florestais fragmentadas e a sustentabilidade da exploração florestal

Roba-mahogany (Carapa guianensis Aubl. and Carapa procera D. C.): ecological, botanical and technological aspects of its seeds and seedlings

In the Amazon Basin occur both species of the genus Carapa (Meliaceae). Roba-mahogany is well known for the quality of its timber and the oil extracted from its seeds. The provision of basic information on seed and seedlings to subsidize scientific studies and the propagation and management of these species was the objective of this study. Bio-morphology of the fruits, seeds and seedlings, and a comparative botanical description, allow the distinction of both species. The natural distribution, abundance and phenology are presented, as well as factors which may influence the natural regeneration, as the high seed predation and the infestation by Hypsipyla grandella. Roba-mahogany trees have large seeds (with an average weight of 25 g - C. guianensis and 16 g - C. procera) with a regular fructification. However, there are difficulties in seedling production due to desiccation and chilling sensitivity of the seeds. The thickness of the seed coat may cause dormancy of C. guianensis, which may delay the germination until six months. Seeds of C. procera, which normally have a thinner seed coat need in average only one month to germinate. Nursery practices and planting, as well as the use of these species are commented.Na Amazônia, encontram-se ambas espécies do gênero Carapa (Meliaceae), conhecidas pela qualidade da madeira e pelo óleo extraído das sementes. O objetivo deste trabalho foi apresentar informações sobre sementes e plântulas de uma maneira abrangente para subsidiar interesses científicos e aplicados à propagação e manejo das espécies. Para tanto são apresentadas a bio-morfologia dos frutos, sementes e plântulas e uma descrição botânica comparativa, permitindo a distinção das duas espécies. A distribuição natural, abundância e fenologia são apresentados; como também fatores que afetam a regeneração natural, relacionados com as altas taxas de predação de sementes e o ataque da broca-do-ponteiro (Hypsipyla grandella). Andiroba produz sementes grandes e regularmente (em média com peso de 25 g - C. guianensis el6 g -C. procera), porém a produção de mudas enfrenta dificuldades devido a intolerância das sementes ao dessecamento e resfriamento. A espessura do tegumento das sementes de C. guianensis pode causar dormência e prolongar a germinação em até seis meses. O tegumento das sementes de C. procera é normalmente mais delgado e elas necessitam em média apenas um mês para germinar. Práticas de viveiro e plantio, assim como o uso destas espécies são abordados

Sementes poliembriônicas de Carapa surinamensis (Meliaceae) tem vantagens para o desenvolvimento das plântulas?

Polyembryony is the differentiation and development of multiple embryos in a single seed. This characteristic can provide advantages, as more than one embryo is produced with the same amount of resources, and the probability of establishment of at least one seedling increases. However, sibling seedlings may also increase competition, affecting development and survival. In the present study, the possible advantages and disadvantages of polyembryony were analyzed in the initial establishment of seedlings of Carapa surinamensis (Meliaceae), a tree species that produces monoembryonic or polyembryonic seeds. In this regard, the development of single seedlings was compared with a pair of seedlings emerging from polyembryonic seeds. We compared the development of seedlings attached to or detached from each other and to the seed resources. We observed two levels of competition(a) for the seed reserves during germination and initial development, as multiple embryos of C. surinamensis share the same reserves, and (b) for external factors, mostly space for root and shoot development, and also for light. Reducing the competition for external factors by separating the siblings was not enough to reduce the effects of competition for seed reserves in the first six months of development. Nevertheless, viable seedlings were produced in all treatments. Thus, depending on sprout management in the nursery, the number of seedlings per seed can be significantly increased by detaching the seedlings, or more vigorous seedlings can be obtained when only one seedling is maintained.Poliembrionia é a diferenciação e o desenvolvimento de múltiplos embriões em uma única semente. Esta característica pode proporcionar diversas vantagens, como aumentar o número de embriões produzidos com a mesma quantidade de recursos, e aumentar a probabilidade de estabelecimento de pelo menos uma plântula de uma única semente. Por outro lado, a competição entre plântulas pode aumentar, afetando seu desenvolvimento e sobrevivência. Neste estudo, foram analisadas as possíveis vantagens e desvantagens da poliembrionia em sementes de andiroba, Carapa surinamensis (Meliaceae), uma espécie arbórea que produz sementes monoembriônicas ou poliembriônicas. Comparamos o desenvolvimento de plântulas únicas com o de pares de plântulas provenientes de sementes poliembriônicas. As plântulas foram mantidas unidas ou separadas entre si e ligadas à ou destacadas da semente. Os resultados revelaram dois níveis de competição: (a) pelas reservas da semente durante a germinação e desenvolvimento inicial da plântula, quando embriões múltiplos de C. surinamensis compartilham as mesmas reservas, e (b) por fatores externos, principalmente espaço para o desenvolvimento da raiz e da parte aérea, e luz. A redução da competição por fatores externos, através da separação das plântulas, não foi suficiente para reduzir os efeitos da competição pelas reservas das sementes nos primeiros seis meses de desenvolvimento. Apesar disso, plântulas viáveis foram produzidas em todos os tratamentos. Assim, dependendo do manejo dos brotos em viveiro, o número de plântulas produzidas pode ser aumentado significativamente por meio da separação entre plântulas, ou o vigor das plântulas pode ser incrementado através de sua manutenção individualizada

Forest fragmentation impacts the seasonality of Amazonian evergreen canopies

Predictions of the magnitude and timing of leaf phenology in Amazonian forests remain highly controversial. Here, we use terrestrial LiDAR surveys every two weeks spanning wet and dry seasons in Central Amazonia to show that plant phenology varies strongly across vertical strata in old-growth forests, but is sensitive to disturbances arising from forest fragmentation. In combination with continuous microclimate measurements, we find that when maximum daily temperatures reached 35 °C in the latter part of the dry season, the upper canopy of large trees in undisturbed forests lost plant material. In contrast, the understory greened up with increased light availability driven by the upper canopy loss, alongside increases in solar radiation, even during periods of drier soil and atmospheric conditions. However, persistently high temperatures in forest edges exacerbated the upper canopy losses of large trees throughout the dry season, whereas the understory in these light-rich environments was less dependent on the altered upper canopy structure. Our findings reveal a strong influence of edge effects on phenological controls in wet forests of Central Amazonia.Peer reviewe

The role of parabiotic ants and environment on epiphyte composition and protection in ant gardens

Ant gardens (AGs) are a multi-partner specialized ant-plant interaction involving several ant and epiphyte species. Although studies on AGs have reported possible roles for some species in this system, there are unanswered questions regarding the process of epiphyte incorporation in the AGs and the role of less aggressive ant species in AG protection. In this study, we used AGs in the Brazilian Amazon forest formed by two parabiotic ant species to test a set of hypothesis regarding two main questions: 1) How is AG plant community composition affected by the surrounding environment? 2) Does Crematogaster levior play a role in the chemical detection of herbivory in the AGs? After identifying epiphytes occurring at AGs at the forest edge and in the interior, we found that ant gardens in each environment exhibited different compositions, and that plant species bearing oil or extrafloral nectar glands were more frequent in AGs located in the forest interior than in those at the forest edge. By performing experiments with volatile compounds emitted from injured epiphytes, we detected that only Camponotus femoratus was responsive, responding almost eight times faster in response to plant extracts than water treatments. Our results support the idea that environmental conditions affect ant preference for feeding resources provided by epiphytes and consequently shape the structure of the epiphyte community in AGs. On the other hand, the role of C. levior in AGs remains unknown, since it seems to play no direct or indirect role in AG protection

Pervasive gaps in Amazonian ecological research

Biodiversity loss is one of the main challenges of our time,1,2 and attempts to address it require a clear un derstanding of how ecological communities respond to environmental change across time and space.3,4 While the increasing availability of global databases on ecological communities has advanced our knowledge of biodiversity sensitivity to environmental changes,5–7 vast areas of the tropics remain understudied.8–11 In the American tropics, Amazonia stands out as the world’s most diverse rainforest and the primary source of Neotropical biodiversity,12 but it remains among the least known forests in America and is often underrepre sented in biodiversity databases.13–15 To worsen this situation, human-induced modifications16,17 may elim inate pieces of the Amazon’s biodiversity puzzle before we can use them to understand how ecological com munities are responding. To increase generalization and applicability of biodiversity knowledge,18,19 it is thus crucial to reduce biases in ecological research, particularly in regions projected to face the most pronounced environmental changes. We integrate ecological community metadata of 7,694 sampling sites for multiple or ganism groups in a machine learning model framework to map the research probability across the Brazilian Amazonia, while identifying the region’s vulnerability to environmental change. 15%–18% of the most ne glected areas in ecological research are expected to experience severe climate or land use changes by 2050. This means that unless we take immediate action, we will not be able to establish their current status, much less monitor how it is changing and what is being lostinfo:eu-repo/semantics/publishedVersio

Pervasive gaps in Amazonian ecological research

Biodiversity loss is one of the main challenges of our time,1,2 and attempts to address it require a clear understanding of how ecological communities respond to environmental change across time and space.3,4 While the increasing availability of global databases on ecological communities has advanced our knowledge of biodiversity sensitivity to environmental changes,5,6,7 vast areas of the tropics remain understudied.8,9,10,11 In the American tropics, Amazonia stands out as the world's most diverse rainforest and the primary source of Neotropical biodiversity,12 but it remains among the least known forests in America and is often underrepresented in biodiversity databases.13,14,15 To worsen this situation, human-induced modifications16,17 may eliminate pieces of the Amazon's biodiversity puzzle before we can use them to understand how ecological communities are responding. To increase generalization and applicability of biodiversity knowledge,18,19 it is thus crucial to reduce biases in ecological research, particularly in regions projected to face the most pronounced environmental changes. We integrate ecological community metadata of 7,694 sampling sites for multiple organism groups in a machine learning model framework to map the research probability across the Brazilian Amazonia, while identifying the region's vulnerability to environmental change. 15%–18% of the most neglected areas in ecological research are expected to experience severe climate or land use changes by 2050. This means that unless we take immediate action, we will not be able to establish their current status, much less monitor how it is changing and what is being lost