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Urbanization is among the main factors of ecosystem transformation and threats to global biodiversity. Urban green spaces provide multiple services, being important for biodiversity and human well-being. However, the relationship between green spaces and forest birds has been scarcely studied in the Global South. In this work, we used citizen science data (eBird) to assess the variation in the species richness and composition of forest birds in two types of public urban green spaces characterized by different vegetation composition and management: parks and reserves. In general, reserves had more native and unmanaged vegetation than parks. We selected parks and reserves located in the coastal area of the Metropolitan Area of Buenos Aires, Argentina. Sampling effort was considered as the number of checklists for each site. The database allowed information to be extracted from 12 sites and 33 species. The most common species were the Green-barred Woodpecker (Colaptes melanochloros), the Narrow-billed Woodcreeper (Lepidocolaptes angustirostris), and the White-crested Tyrannulet (Serpophaga subcristata). Bird species richness was higher in reserves than in parks and was positively related to sampling effort. The forest bird species composition varied according to the type of green area and sampling effort. Species composition showed a significant nestedness, with the least rich sites being a subset of species from the richest sites. Reserves and sites with the highest sampling effort concentrated all species. The results obtained show the importance of urban reserves in the conservation of forest birds.

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Resumen Los sistemas agroforestales pueden representar importantes nichos ecológicos que coadyuven a la conservación de la diversidad avifaunística. El objetivo de este trabajo fue estimar y comparar la diversidad y uso de hábitat de aves insectívoras en sistemas agroforestales enclavados en un bosque mesófilo de montaña. Se efectuó el monitoreo de aves de agosto de 2018 a enero de 2019 en tres hábitats: café tradicional (CT), potrero (PT) y bosque mesófilo de montaña (BMM). Se determinaron índices de abundancia relativa (IAR), riqueza (Jacknife1), similitud (Jaccard) y diversidad (Shannon-Wiener). El IAR presentó valores bajos para los tres hábitats. El método Jacknife1 denotó una riqueza promedio considerable para las tres áreas (CT: 33.02, PT: 24.20, BMM: 9.98, CT-PT-BMM: 52.22). La técnica de Jaccard registró poca similitud en la riqueza, reafirmando el efecto del hábitat, composición y estructura florística como factores determinantes, al mismo tiempo que estableció promedios de diversidad alta obtenidos mediante el método de Shannon-Wiener (H´= 3.3; 3.1; 2.27; 3.78, respectivamente), revelando una diversidad relativamente estable en los tres hábitats. Por su parte, Kruskal-Wallis advirtió diferencias en la diversidad, pero no para la riqueza y la abundancia. Se evidenció la conformación declústeresy agrupaciones que encontraron mayor similitud entre la riqueza y la abundancia de especies por cada monitoreo aplicado. El análisis de componentes principales indicó mayor correlación del hábitat y la vegetación utilizados para la alimentación en el estrato herbáceo y arbóreo, en alturas que van de 5 m a 10 m, utilizando el estrato aéreo para vuelo. Los sistemas agroforestales estudiados constituyeron un nicho de oportunidad en donde la avifauna halló alimento, áreas de nidación y reproducción. Se recomienda la implementación de buenas prácticas de manejo agroforestal que coadyuven a la conservación de especies.

Abstract Agroforestry systems can represent important ecological niches that contribute to the conservation of bird diversity. The objective of this work was to estimate and compare the diversity and habitat use of insectivorous birds in agroforestry systems located in a montane cloud forest. Bird monitoring was carried out from August 2018 to January 2019 in three habitats: traditional coffee plantation (CT), paddock (PT) and montane cloud forest (BMM). Relative abundance (IAR), richness (Jacknife1), similarity (Jaccard) and diversity (Shannon-Wiener) indices were determined. The IAR presented low values for the three habitats. The Jacknife1 method denoted considerable average richness for the three areas (CT: 33.02, PT: 24.20, BMM: 9.98, CT-PT-BMM: 52.22). The Jaccard technique recorded little similarity in richness, reaffirming the effect of habitat, composition and floristic structure as determining factors, which at the same time established high diversity averages, obtained by the Shannon-Wiener method (H´= 3.3; 3.1 ; 2.27; 3.78, respectively), revealing a relatively stable diversity in the three habitats. For his part, Kruskal-Wallis noticed differences in diversity, but not for richness and abundance. The formation of clusters and groups that found greater similarity between the richness and abundance of species for each applied monitoring was evidenced. Principal component analysis indicated a higher correlation of habitat and vegetation used for feeding in the herbaceous and arboreal stratum, at heights ranging from 5 m to 10 m, using the aerial stratum for flight. The agroforestry systems studied constituted a niche of opportunity where the avifauna found food, nesting and reproduction areas. The implementation of good agroforestry management practices that contribute to the conservation of species is recommended.

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Although birds have traditionally been considered anosmic, increasing evidence indicates that olfaction plays an important role in the foraging behaviours of insectivorous birds. Recent studies have shown that birds can exploit herbivore-induced plant volatiles and sexual pheromones of adult insects to locate their prey. Many insectivorous birds prey on immature insects, providing relevant ecosystem services as pest regulators in natural and agricultural ecosystems. We asked whether birds could rely on chemical cues emitted by the immature stages of insects to prey on them. To address this question, we performed field experiments to evaluate if insectivorous birds can detect the aggregation pheromone produced by the larvae of the carpenter worm, Chilecomadia valdiviana. Groups of five artificial larvae were placed in branches of 72 adult trees in a remnant fragment of a sclerophyllous forest in central Chile. Each grouping of larvae contained a rubber septum loaded with either larval pheromone as treatment or solvent alone as control. We found that the number of larvae damaged by bird pecks was significantly higher in groups with dispensers containing the larval extract than in control groups. Our results show that birds can rely on immature insect-derived chemical cues used for larvae aggregation to prey on them.

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Biodiversity affects the structure of ecological communities, but little is known about the interactive effects of diversity across multiple trophic levels. We used a large-scale forest diversity experiment to investigate the effects of tropical tree species richness on insectivorous birds, and the subsequent indirect effect on predation rates by birds. Diverse plots (four tree species) had higher bird abundance (61%), phylogenetic diversity (61%), and functional diversity (55%) than predicted based on single-species monocultures, which corresponded to higher attack rates on artificial caterpillars (65%). Tree diversity effects on attack rate were driven by complementarity among tree species, with increases in attack rate observed on all tree species in polycultures. Attack rates on artificial caterpillars were higher in plots with higher bird abundance and diversity, but the indirect effect of tree species richness was mediated by bird diversity, providing evidence that diversity can interact across trophic levels with consequences tied to ecosystem services and function.

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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.

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This study provides information on the species composition and the number of butterflies in different phases of an ithomiine aggregation during the 2004 dry season in central Brazil, and tests some hypotheses concerning the pocket formation. The results obtained suggest that ithomiine pockets constitute primarily an adaptation of butterflies to the adverse climatic conditions of the dry season, such as high temperatures and low air relative humidity, rather than the occurrence of large concentrations of adult food resources (flowers visited for nectar were not found in the pocket site) or defense against visually hunting predators (contrary to the prediction tested, the frequency of butterflies bearing birds beak marks on the wings significantly increased along the period of pocket formation, especially in the case of Mechanitis polymnia, the most abundant species in the pocket). Other hypotheses concerning the pocket formation are also discussed.

Este trabalho apresenta dados sobre a composição de espécies e o número de indivíduos encontrados em diferentes fases de formação de um bolsão de Ithomiinae investigado na estação seca de 2004 em uma floresta de galeria do Brasil central, e testa algumas hipóteses relacionadas à formação do bolsão. Os resultados obtidos sugerem que o bolsão constitui primariamente uma adaptação das borboletas às condições adversas da estação seca, tais como altas temperaturas e baixa umidade relativa do ar, e não como conseqüência de grande concentração de recursos alimentares dos adultos (flores visitadas para obtenção de néctar não foram encontradas na área do bolsão), ou simples defesa contra predadores visualmente orientados (contrariamente à predição testada, a freqüência de borboletas apresentando marcas de bicadas de aves sobre as asas aumentou significativamente ao longo do período de formação do bolsão, especialmente no caso de Mechanitis polymnia, a borboleta mais abundante). Outras hipóteses relacionadas à formação do bolsão são também discutidas.

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