Your search keyword '"Leal,IR"' showing total 72 results

1. Resilient fruit-feeding butterfly assemblages across a Caatinga dry forest chronosequence submitted to chronic anthropogenic disturbance.

Author

Melo, Douglas H. A., Freitas, André V. L., Tabarelli, Marcelo, Leal, Inara R., and Filgueiras, Bruno K. C.

Subjects

TROPICAL dry forests, FOREST biomass, SECONDARY forests, FOREST regeneration, INSECT conservation, BIOMASS conversion

Abstract

Interest in forest regeneration has increased as secondary forests in regeneration process are cited as the forests of the future. However, remaining forests are subjected to chronic anthropogenic disturbances, which may reorganize tropical biodiversity. This paper investigates the recovery of fruit-feeding butterfly assemblages following slash-and-burn agriculture in the Caatinga dry forest, assessing the roles that chronic disturbances, tree species richness and biomass play in their taxonomic and functional recovery during secondary succession. Butterflies were recorded monthly across old-growth forest stands and areas previously subjected to slash-and-burn agriculture, and with differing times since abandonment. While there was a high degree of similarity in community-level attributes among regenerating forests of different ages, secondary and old-growth forests supported relatively distinct assemblages, both taxonomically and functionally. As expected, chronic disturbance, forest biomass and trees species richness were excellent predictors of taxonomic and functional changes. Specifically, large-bodied and canopy-inhabiting butterflies reached higher abundances in more disturbed habitats, while those ocellus-bearing species that fly in the understory and feed on monocot as larvae responded negatively to disturbance, but benefited from increased forest biomass and tree species richness. Our findings suggest that although regenerating secondary forests can recover values of community-level attributes of fruit-feeding butterflies similar to those of old-growth forests, chronic anthropogenic disturbances across the landscape may be selecting only specific ecological groups that are tolerant to adverse conditions. Implications for insect conservation: Chronic disturbance can taxonomically and functionally alter butterfly assemblages across forest regeneration and consequently impact their ecological functions. [ABSTRACT FROM AUTHOR]

Published

2023

2. Evaluation of the skin whitening and antioxidant activity of Myracrodruon urundeuva extract (aroeira-do-sertão).

Author

Sabóia Guerra Diógenes, Érika, da Silva, Antônia Lais Coelho, Chagas Neto, Francisco Cirineu das, Silveira, Edilberto Rocha, Leal, Luzia Kalyne Almeida Moreira, Nicolete, Roberto, and de Araújo, Tamara Gonçalves

Subjects

TROPICAL dry forests, HYDROXYL group, PHENOL oxidase, COPPER ions, COPPER, FREE radicals

Abstract

Myracrodruon urundeuva, popularly known as 'aroeira-do-sertão', a large tree, with a tall trunk. Belonging to the Anacardiaceae family, it occurs in the 'caatinga' and dry forests of Brazil, from Ceará to the states of Paraná and Mato Grosso do Sul. The present study aimed to analyse the whitening and antioxidant activities of the aqueous extract of the leaves of Myracrodruon urundeuva (AELMU). Inhibition of the tyrosinase enzyme, as well as its copper chelating capacity and antioxidant effect were evaluated. The AELMU (at 2000 µg/mL) showed excellent inhibitory action (83.76%) on tyrosinase by chelating the copper ion while kojic acid at the same concentration inhibited 97.81%. Moreover, the extract displayed important antioxidant activity (inhibited 76,46% of the 2,2-diphenyl-1-picrylhydrazyl radical - DPPH; 49,59% of thiobarbituric acid reactive substances and 51,07% of the hydroxyl radical). Thus, the extract under study is promising for use in cosmetics, given its multifactorial action. [ABSTRACT FROM AUTHOR]

Published

2024

3. Floral morphology and pollen placement strategies of bat-pollinated flowers: a comparative analysis within a guild of chiropterophilous plants in a neotropical dry forest.

Author

Pontes, Cristina Adriane de Souza, Machado, Isabel Cristina, and Domingos-Melo, Arthur

Subjects

TROPICAL dry forests, FLORAL morphology, POLLEN, PLANT drying, PLANT species

Abstract

Background: Synchronopatric plant species, coexisting and flowering simultaneously, often engage in intense competition for pollen deposition on shared pollinators. This study focuses on the intricate dynamics of chiropterophilous flowers within the neotropical bat-pollination plant guild, specifically investigating the mechanical fit of reproductive structures to pollinating bats at the community level. Methods: Utilizing a diverse guild of bat-pollinated plant species from the Caatinga, the largest dry forest in the Neotropics, our research integrates various key components. Initially, we identified specific contact sites for floral reproductive structures on the bat's body, exploring diverse pollen placement strategies. Subsequent efforts involved characterizing floral traits within the guild and examining their associations with different pollen placement strategies. Precision in the contact of floral reproductive structures was estimated, and findings were integrated by associating pollen placement strategies and precision with the investment in pollen production. Results: We found that certain bat body parts, particularly the face and neck, were more frequently contacted by reproductive structures. The three identified categories of pollen placement strategies were evenly distributed among plant species, each linked to specific floral traits. Notably, the absence of oriented herkogamy prevailed in 70% of the species. Morphometric analyses unveiled significant variations in operative distances among species, emphasizing exceptional variability in certain outliers. While precision in pollen transfer was influenced by key factors, surprisingly, investment in pollen production did not differ among plants with distinct pollen placement strategies. Furthermore, it showed no correlation with fundamental accuracy. Conclusions: The subsequent exploration delves into the intricate associations between distinct floral characteristics and various pollen placement strategies, shaping the complex pollen landscape on bat bodies. This research provides valuable insights into the community-level dynamics of chiropterophilous flowers in the Caatinga Dry Forest, emphasizing the role of different pollen deposition strategies in facilitating the coexistence of multiple plant species within the chiropterophilous guild. [ABSTRACT FROM AUTHOR]

Published

2024

4. Insights of ecological resilience in Caatinga assemblages – landscape configuration drives Chrysomeloidea (Coleoptera) diversity in a seasonally dry tropical forest.

Author

Salomão, Renato Portela, Alvarado, Fredy, Dália Maia, Artur Campos, Oliveira, Denize Wgliana Gervasio de, Linzmeier, Adelita Maria, and Iannuzzi, Luciana

Subjects

TROPICAL dry forests, ECOLOGICAL resilience, BIOTIC communities, BIODIVERSITY conservation, SHRUBLANDS

Abstract

Seasonally Dry Tropical Forests (SDTFs) have long suffered from chronic, intensive and extensive landscape transformations due to human activities, challenging biodiversity conservation in this biome. The Caatinga is the largest Neotropical SDTF, serving as an excellent model to understand how land use changes modulate ecological communities. In this study, we assessed the effects of landscape configuration and composition on the abundance and diversity of Chrysomeloidea in a region of Caatinga. We sampled beetles in 10 landscape units, in which we measured landscape configuration (patch size, edge density) and composition (landscape diversity, patch richness). Hill numbers (q0, q1, q2) were used to analyze the diversities of Chrysomeloidea. A total of 484 individuals belonging to 82 species were collected. Landscape configuration affected Chrysomeloidea assemblages with a positive correlation between edge density and Chrysomeloidea diversity. We provide a new perspective regarding the spatial distribution of Chrysomeloidea in Caatinga and conclude that landscape configuration, but not composition, directly affects Chrysomeloidea assemblages. [ABSTRACT FROM AUTHOR]

Published

2024

5. The sicariid spiders in the state of Bahia, Brazil (Arachnida: Araneae).

Author

Andrade-de-Sá, Júlia, Brazil, Tania Kobler, Lira-da-Silva, Rejâne Maria, and Brescovit, Antonio Domingos

Subjects

LOXOSCELES, TROPICAL dry forests, ARACHNIDA, SPECIES distribution, SPIDERS

Abstract

Background: Sicariidae is a small family of cryptic and recluse spiders, with 178 species grouped into three genera: Hexophtalma, Loxosceles and Sicarius. Only the last two occur in Brazil, where 29 species are recorded, with a greater number of records in the Southeast and South regions. To date, there is no regionalized study of the distribution of these spiders in the Northeast of Brazil. We presented more than four decades of data on the distribution of sicariid spiders in the state of Bahia. Our research aimed to identify and evaluate the distribution of sicariid species in this region, characterizing them in their biomes and phytophysiognomies. Methods: Data covers a period from 1983 to 2024, obtained from articles describing species recorded in Bahia and from three scientific collections from Brazilian institutions: Universidade Federal da Bahia (MHNBA); Instituto Butantan (IBSP); Universidade Federal de Minas Gerais (UFMG). Maps were produced using the QGIS 3.34.1 software, based on geographic coordinates obtained from the original literature, when provided. Species without information on geographic coordinates were georeferenced using the SpeciesLink (geoLoc tool) for the municipalities. Biomes were consulted on the georeference Brazilian institute website and the phytophysiognomies were ignored when not specified in the data of collections or original literature. Results: We confirmed 14 species of sicariid spiders in the state of Bahia, eight from the genus Loxosceles (i) and six from Sicarius. The species were recorded in 48 municipalities, located mainly in the Caatinga biome. We recorded a distribution expansion of seven species: Loxosceles amazonica, L. chapadensis, L. karstica, L. similis, Sicarius cariri, S. ornatus and S. tropicus. There is a difference in species composition in the two regions separated by the São Francisco River, an important geographic barrier especially for small invertebrates. More than 75% of the species were registered in the east side and about 20% exclusively in the west side: L. boqueirao, L. cardosoi, L. carinhanha. This suggests the need for future studies to evaluate additional variables that determine community structure, especially considering their low vagility and reclusive behavior. Although Sicarius are found almost exclusively in the Caatinga, there are isolated records from Restinga and dry forest enclaves in the Cerrado domain and Atlantic Forest areas. This reinforces the possibility of them being able to adapt to slightly wetter environments erase colonize and survive in seasonally dry rainforest areas. Unlike Sicarius (i), Loxosceles (i) occupy a wide variety of habitats in natural, urban and domiciliary situations. Many of the records here such as for Loxosceles boqueirao, L. cardosoi, L. carinhanha, L. chapadensis, L. karstica and L. troglobia were obtained at caves or nearby areas, which appear to be attractive habitats for these nocturnal spiders. [ABSTRACT FROM AUTHOR]

Published

2024

6. Individual and interactive effects of chronic anthropogenic disturbance and rainfall on taxonomic, functional and phylogenetic composition and diversity of extrafloral nectary-bearing plants in Brazilian Caatinga.

Author

Arnan, Xavier, Silva, Carlos H. F., Reis, Daniela Q. A., Oliveira, Fernanda M. P., Câmara, Talita, Ribeiro, Elâine M. S., Andersen, Alan N., and Leal, Inara R.

Subjects

CAATINGA plants, TROPICAL dry forests, INSECT-plant relationships, FOOD chains, PLANT diversity

Abstract

Chronic anthropogenic disturbance (CAD) and climate change represent two of the major threats to biodiversity globally, but their combined effects are not well understood. Here we investigate the individual and interactive effects of increasing CAD and decreasing rainfall on the composition and taxonomic (TD), functional (FD) and phylogenetic diversity (PD) of plants possessing extrafloral nectaries (EFNs) in semi-arid Brazilian Caatinga. EFNs attract ants that protect plants against insect herbivore attack and are extremely prevalent in the Caatinga flora. EFN-bearing plants were censused along gradients of disturbance and rainfall in Catimbau National Park in north-eastern Brazil. We recorded a total of 2243 individuals belonging to 21 species. Taxonomic and functional composition varied along the rainfall gradient, but not along the disturbance gradient. There was a significant interaction between increasing disturbance and decreasing rainfall, with CAD leading to decreased TD, FD and PD in the most arid areas, and to increased TD, FD and PD in the wettest areas. We found a strong phylogenetic signal in the EFN traits we analysed, which explains the strong matching between patterns of FD and PD along the environmental gradients. The interactive effects of disturbance and rainfall revealed by our study indicate that the decreased rainfall forecast for Caatinga under climate change will increase the sensitivity of EFN-bearing plants to anthropogenic disturbance. This has important implications for the availability of a key food resource, which would likely have cascading effects on higher trophic levels. [ABSTRACT FROM AUTHOR]

Published

2022

7. Priority areas for restoring ecosystem services to enhance human well‐being in a dry forest.

Author

Costa, Thayná L. da S. Rabêlo, Mazzochini, Guilherme G., Oliveira‐Filho, Ary T., Ganade, Gislene, Carvalho, Adriana R., and Manhães, Adriana P.

Subjects

HUMAN services, NATURAL resources, TROPICAL dry forests, RESTORATION ecology, SUPPLY & demand, ECOSYSTEM services

Abstract

Habitat destruction reduces biodiversity and affects ecosystem functioning, putting at risk the provision of ecosystem services (ESs) essential for human well‐being. Ecological restoration using native species with multiple uses may offer a long‐term supply of natural resources for vulnerable human populations. We selected priority areas for restoration in the Brazilian Seasonally Dry Tropical Forest (Caatinga), targeting areas with high ES demand but low supply. We estimated the supply and demand for three ESs: (1) food/medicine, (2) wood production, and (3) pollination. We estimated ES supply using maps of the potential geographical distribution of 194 native plant species used by the local population as a means of livelihood. For ES demand, we used maps of population density, rural municipalities, wood productivity, and crops dependent on pollination. We used a large‐scale prioritization tool (Zonation) to select two scenarios for each ES: (1) ES supply‐only and (2) ES supply + ES demand, selecting only nonvegetated areas. To select priority areas, where the potential occurrence of species (ES supply) corresponds to areas of high demand for the same services, we overlapped the maps of the two scenarios for each ES. The highest percentage of scenario overlap occurred for food/medicine ES (45%), whereas pollination showed the lowest percentage of overlap (10%), indicating little similarity between potential ES supply and demand areas. Our study shows the importance of including ES in ecological restoration opportunities, taking into account the vulnerable human population in dry regions and their demand for natural resources. [ABSTRACT FROM AUTHOR]

Published

2021

8. Effects of chronic anthropogenic disturbances on flesh fly (Diptera, Sarcophagidae) assemblages in areas of seasonally dry tropical forest.

Author

Barbosa, Taciano Moura, Carmo, Rodrigo Felipe Rodrigues, Mello-Patiu, Cátia Antunes, Leal, Inara Roberta, and Vasconcelos, Simão Dias

Subjects

TROPICAL dry forests, SARCOPHAGIDAE, DIPTERA, NON-timber forest products, INSECT conservation, BOS

Abstract

Background: Seasonally dry tropical forests (SDTF) are among the most vulnerable ecosystems to chronic anthropogenic disturbances (CAD) such as agriculture, livestock and exploitation of wood and non-timber forest products which can negatively affect the local biota. We evaluated the influence of CAD and rainfall on the diversity of flesh flies (Diptera, Sarcophagidae) in the Brazilian Caatinga. We expected that the increase in CAD would negatively affect the specialist Sarcophagidae species and promote homogenisation of the assemblage. Methods: Specimens were collected using traps baited with fish, bovine spleen or human feces in six environments with different intensities of CAD—low, intermediate and high, based on land use and conservation status. Results: We collected 29,810 specimens (3760 males, identified to 14 genera, 32 species). We observed a positive relationship between disturbance intensity and the abundance of synanthropic flies, mainly Tricharaea occidua. The diversity of common species and dominant species were affected only by CAD. There was also a marked substitution of species throughout the Caatinga environments (βSIM = 0.91), with few taxa (less than 50%) occurring indiscriminately in the areas under the three levels of impact. Discussion: Chronic disturbances pose a constant threat to the conservation of flesh fly species. CAD act as a trigger for the homogenisation of Sarcophagidae assemblages, and magnify the dominance of synanthropic and generalist species. Implications for insect conservation: Empirical data on the effect of chronic disturbances can subsidize quantitative studies addressing local extinction. Our data strengthen the use of Sarcophagidae as biological indicators of anthropogenic action and can subsidize protocols for monitoring anthropogenic impacts in dry forests. [ABSTRACT FROM AUTHOR]

Published

2021

9. Seasonal influence on foraging activity of scorpion species (Arachnida: Scorpiones) in a seasonal tropical dry forest remnant in Brazil.

Author

de Araujo Lira, André Felipe, Vieira, Alexandre Gomes Teixeira, and Oliveira, Rogério Ferreira

Subjects

TROPICAL dry forests, ARACHNIDA, SCORPIONS, TITYUS, NATIONAL territory

Abstract

In Brazil, the Caatinga ecoregion is the only biome that lies completely within the country, covering approximately 11% of the national territory. This biome exhibits a strong climatic seasonality that may affect the activity of its fauna. We aimed to assess the effects of seasonality on scorpion foraging activity in an area of hypoxerophytic Caatinga, located in the municipality of Caetés, Pernambuco. Scorpions were collected through active nocturnal searching using ultraviolet flashlights during the rainy (May, June, and July) and dry (September, October, and November) seasons in 2017. A total of 96 specimens were collected, belonging to the Buthidae and Bothriuridae families, comprising seven species, Ananteris sp., Tityus pusillus, T. stigmurus, T. neglectus, Jaguajir rochae, Bothriurus asper, and B. rochai. No differences in foraging activity (rainy season, n = 47; dry season, n = 49) were found between rainy and dry seasons. These findings indicate that the studied area has a high scorpion richness, emphasizing the importance of conserving the area, as these animals are sensitive to habitat changes. In addition, the lack of variation between seasons found in this work may reflect the ecotonal nature of hypoxerophytic Caatinga. [ABSTRACT FROM AUTHOR]

Published

2020

10. Expanding the knowledge of the bat fauna of the Brazilian Caatinga: new geographical records of molossid bats (Chiroptera, Molossidae) for the Chapada Diamantina region, with taxonomic notes.

Author

García, Franger J., Ochoa-G, José, Poma-Urey, José L., Miller, Bruce W., Falcão, Fábio C., and del Valle Alvarez, Martín Roberto

Subjects

TROPICAL dry forests, COMMUNITY forests, NUMBERS of species, SEXUAL dimorphism, BIOGEOGRAPHY, BIOMES

Abstract

The Caatinga, an exclusive biome in Brazil, is the largest tropical dry forest area in the Americas. It is characterized by a semi-arid climate and various soils that harbor a great diversity of flora and fauna. Novel records of aerial insectivorous bat species in the family Molossidae in the Chapada Diamantina, northeastern Brazil are presented. The study is based on field sampling of 115 molossid bat specimens from six genera and 12 taxonomically confirmed species, along with four taxa requiring further evaluation for definitive species identification. All specimens were obtained using mist nets around a small freshwater lagoon surrounded by semideciduous dry forest. The verified genera were Cynomops, Eumops, Molossops, Molossus, Neoplatymops, and Nyctinomops. Our findings enhance the understanding of bat diversity in the Brazilian Caatinga, with the first records of Eumops delticus, E. bonariensis, and Molossus currentium. The most abundant species were Molossus rufus, Eumops glaucinus, Cynomops planirostris, Nyctinomops laticaudatus, and Molossus molossus. Previously unreported morphological and morphometric variations for these Caatinga taxa were examined. Additionally, information on sexual dimorphism in craniodental characteristics of Molossops temminckii and variations in the presence of the sagittal crest in Neoplatymops mattogrossensis are provided. Based on the voucher specimens from this study, the recognized number of species of Molossidae known from the Caatinga has increased to 21. Our results offer new insights into the taxonomy and biogeography of Neotropical molossids, highlighting their importance as members of bat communities in dry forest ecosystems from northeastern South America. [ABSTRACT FROM AUTHOR]

Published

2024

11. Patterns of Biological and Utilitarian Diversity of Plants Through a Dry Forest Precipitation Gradient.

Author

dos Santos Souza, André, Rito, Kátia F., da Silva Chaves, Leonardo, Júnior, Washington Soares Ferreira, Tabarelli, Marcelo, and Albuquerque, Ulysses Paulino

Subjects

PLANT diversity, TROPICAL dry forests, PLANT drying, SPECIES diversity, ARID regions

Abstract

The environment plays an important role in resource selection by human groups. For example, the same environment shared by different cultures tends to have a greater similarity of useful plants. The present study departs from an innovative perspective, analyzing the factors that influence species richness and their versatility and utilitarian redundancy in a precipitation gradient in an area of Caatinga in the semi-arid region of Pernambuco, Brazil. There was no difference in richness along the precipitation gradient, and the utilitarian redundancy model (URM) indicated no relationship between the proportion of species used and total richness. The versatility hypothesis test showed that environments with lower species richness are more versatile and have a greater number of uses for the same species. The URM led us to the interpretation that the availability of species in the environment cannot be considered a decisive factor in the selection of useful plant resources. One differential of this study was the possibility of testing our hypotheses and verifying the effect of a gradient over a relatively short geographic range. [ABSTRACT FROM AUTHOR]

Published

2024

12. Synergistic effect of habitat loss and chronic anthropogenic disturbances on ant species richness.

Author

Dantas, Anderson and Fonseca, Carlos Roberto

Subjects

SPECIES diversity, TROPICAL dry forests, BIOTIC communities, ANT communities, POPULATION density, ANT colonies

Abstract

Habitat loss is an important factor in global biodiversity loss, but categorizing human-modified landscapes as fragments of natural or anthropogenic habitats may underestimate our impact on biodiversity since most natural fragments suffer from chronic anthropogenic disturbances. Here, we tested the synergistic effect between habitat loss and chronic anthropogenic disturbances on ant communities of the Caatinga, a seasonally dry tropical forest in South America. From online sources and published material, we built a data-set containing information on habitat loss and chronic anthropogenic disturbance index, as well as its vectors (i.e., human population density, infrastructure, logging, fire, and grazing), for 23 Caatinga localities containing information on ant community composition. Generalized linear models demonstrated that habitat loss interacts with chronic anthropogenic disturbance to determine total ant richness and the richness of habitat specialist ants. Furthermore, habitat loss interacts synergistically with several vectors of chronic anthropogenic disturbances to determine ant richness. In general, the effect of habitat loss is exacerbated by human population density, infrastructures, logging, and grazing. The proportion of habitat specialists in the communities did not respond to habitat loss or chronic anthropogenic vectors, suggesting that both ant groups were equally affected by habitat alterations. Although habitat amount is an important predictor of the integrity of the local biodiversity, it tends to underestimate our impact on biological communities. The incorporation of estimates of habitat quality can help us build better models to predict our impact on Earth. [ABSTRACT FROM AUTHOR]

Published

2024

13. Drought-adapted leaves are produced even when more water is available in dry tropical forest.

Author

Yule, Tamires Soares, de Oliveira Arruda, Rosani do Carmo, and Santos, Mauro Guida

Subjects

TROPICAL dry forests, SPECIES distribution, DROUGHTS, RAINFALL, WATER supply, CONSTRUCTION costs, WATER security

Abstract

Species in dry environments may adjust their anatomical and physiological behaviors by adopting safer or more efficient strategies. Thus, species distributed across a water availability gradient may possess different phenotypes depending on the specific environmental conditions to which they are subjected. Leaf and vascular tissues are plastic and may vary strongly in response to environmental changes affecting an individual's survival and species distribution. To identify whether and how legumes leaves vary across a water availability gradient in a seasonally dry tropical forest, we quantified leaf construction costs and performed an anatomical study on the leaves of seven legume species. We evaluated seven species, which were divided into three categories of rainfall preference: wet species, which are more abundant in wetter areas; indifferent species, which are more abundant and occur indistinctly under both rainfall conditions; and dry species, which are more abundant in dryer areas. We observed two different patterns based on rainfall preference categories. Contrary to our expectations, wet and indifferent species changed traits in the sense of security when occupying lower rainfall areas, whereas dry species changed some traits when more water was available, such as increasing cuticle and spongy parenchyma thickness, or producing smaller and more numerous stomata. Trischidium molle, the most plastic and wet species, exhibited a similar strategy to the dry species. Our results corroborate the risks to vegetation under future climate change scenarios as stressed species and populations may not endure even more severe conditions. [ABSTRACT FROM AUTHOR]

Published

2024

14. The role of edaphic differentiation on life zones, vegetation types, β-diversity, and indicator species in tropical dry forests.

Author

Londe, Vinícius, Gomes, Paulo Weslem Portal, and Martins, Fernando Roberto

Subjects

TROPICAL dry forests, LIFE zones, SPECIES distribution, BIOINDICATORS, SOLAR radiation, SPECIES

Abstract

Aims: Tropical dry forests (TDFs) present unique conditions for understanding biogeographical patterns, such as in Caatinga, northeast Brazil, which consists of two contrasting edaphic environments: crystalline and sedimentary terrains. We used Caatinga as a case study to test whether edaphic differences led to differences in life zones, vegetation types, β-diversity, and indicator species. Methods: Compiling 124 floristic surveys (75 in crystalline and 49 in sedimentary terrains) and bioclimatic variables from 1,214 municipalities, we calculated Holdridge life zones, vegetation types, indicator species, and β-diversity based on generalized dissimilarity modeling. Then, we compared these parameters between terrains. Results: We identified five life zones, 10 transition zones, and five vegetation types. The tropical dry/moist forest transition and the steppe-savanna occurred only in the sedimentary, whereas the herbaceous caatinga occurred only in the crystalline terrains. β-Diversity was more dissimilar between regions (north–south and east–west) than between terrains. β-Diversity was better predicted by July temperature, May and September precipitation, soil pH, and June solar radiation. We identified 27 indicator species in crystalline terrain and 56 in sedimentary terrain. Conclusions: Contrasting edaphic environments can restrict the distribution of a subset of species from the regional pool (indicator species), which can be used to characterize each terrain. However, as the other parameters were similar between terrains, and soil properties were not as crucial as climatic variables in explaining β-diversity, soil type seems to have a secondary role in species distribution. Our results help to elucidate how habitat differentiation affects phytogeographical patterns in TDFs. [ABSTRACT FROM AUTHOR]

Published

2023

15. Host phylogeny and seasonality shapes avian haemosporidian prevalence in a Brazilian biodiverse and dry forest: the Caatinga.

Author

de Angeli Dutra, Daniela, Khan, Asmat U., Ferreira, Francisco C., Beirão, Marina V., Pichorim, Mauro, Moreira, Patrícia A., and Braga, Érika M.

Subjects

TROPICAL dry forests, PHYLOGENY, PARASITES, AVIAN malaria

Abstract

The relationships between host phylogenetics, functional traits and parasites in wildlife remain poorly understood in the Neotropics, especially in habitats with marked seasonal variation. Here, we examined the effect of seasonality and host functional traits on the prevalence of avian haemosporidians (Plasmodium and Haemoproteus) in the Brazilian Caatinga, a seasonally dry tropical forest. 933 birds were evaluated for haemosporidian infections. We found a high parasitism prevalence (51.2%), which was correlated with phylogenetic relatedness among avian species. Prevalence varied drastically among the 20 well-sampled species, ranging from 0 to 70%. Seasonality was the main factor associated with infections, but how this abiotic condition influenced parasite prevalence varied according to the host-parasite system. Plasmodium prevalence increased during the rainy season and, after excluding the large sample size of Columbiformes (n = 462/933), Plasmodium infection rate was maintained high in the wet season and showed a negative association with host body mass. No association was found between non-Columbiform bird prevalence and seasonality or body mass when evaluating both Plasmodium and Haemoproteus or only Haemoproteus infections. Parasite community was composed of 32 lineages including 7 new lineages. We evidenced that even dry domains can harbour a high prevalence and diversity of vector-borne parasites and pointed out seasonality as a ruling factor. [ABSTRACT FROM AUTHOR]

Published

2023

16. Human disturbance is the major driver of vegetation changes in the Caatinga dry forest region.

Author

Araujo, Helder F. P., Canassa, Nathália F., Machado, Célia C. C., and Tabarelli, Marcelo

Subjects

VEGETATION dynamics, TROPICAL dry forests, FOREST degradation, TROPICAL forests, FOREST microclimatology

Abstract

Drastic changes in vegetation structure caused by exceeding ecological thresholds have fueled the interest in tropical forest responses to climate and land-use changes. Here, we examine the potential successional trajectories experienced by the largest dry tropical forest region in South America, driven by climate conditions and human disturbance. We built potential distribution models for vertebrate taxa associated with forest or shrub habitats to estimate natural vegetation cover. Distribution patterns were compared to current vegetation across the entire region to identify distinct forest degradation levels. Our results indicate the region has climatic and soil conditions suitable for more forest cover than is currently found, even in some areas with limited precipitation. However, 11.04% of natural cover persists across such an immense region, with only 4.34% consisting of forest cover. Forest degradation is characterized by the dramatic expansion of shrubland (390%), farming, and non-vegetation cover due to changes in land-use, rather than climatic conditions. Although different climate conditions have been the principal drivers for natural forest distribution in the region, the forest seems unable to resist the consequences of land-use changes, particularly in lower precipitation areas. Therefore, land-use change has exceeded the ecological thresholds for the persistence of forests, while climate change may exacerbate vegetation-type transitions. [ABSTRACT FROM AUTHOR]

Published

2023

17. Cryptotermes pugnus (Blattodea, Isoptera, Kalotermitidae), a new drywood termite species from the Brazilian Caatinga dry forest and key to South American Cryptotermes Banks, 1909.

Author

Scheffrahn, Rudolf H. and Vasconcellos, Alexandre

Subjects

TROPICAL dry forests, SPECIES

Abstract

A new termite species, Cryptotermes pugnus sp. nov., is described from northeastern Brazil. The winged imago of C. pugnus is distinguished from most congeners by the lack of arolia and the multiple branches connecting the median vein to the radial sector. The soldier is unique among South American Cryptotermes by its cuboidal head capsule and very rugose postclypeus. The new species constitutes the fourteenth Cryptotermes species on the continent for which we provide a key to soldiers. [ABSTRACT FROM AUTHOR]

Published

2023

18. Age matters: variations in parasitoid diversity along a successional gradient in a dry semi-deciduous tropical forest.

Author

González-Moreno, Alejandra, Bordera, Santiago, Ballina-Gómez, Horacio, and Leirana-Alcocer, Jorge

Subjects

TROPICAL dry forests, PLANT species diversity, OLD growth forests, NUMBERS of species, PLANT succession, INSECT diversity

Abstract

Parasitoids are an important group of insects because their species number is among the highest. Multiple studies have addressed the relationships between forest successional age and insect diversity by focusing on herbivorous organisms, but changes in diversity of parasitoids are still poorly known. This work analyses the diversity of parasitoids in tropical forests representing three successional stages. A total of 30 traps were placed, ten in each forest successional stages. We estimated true diversity of Ichneumonidae species and guilds and explored the relationship between their diversity and the abundance of plant species using an Indicator Species Analysis; the relationship between parasitoid species and plant richness and abundance was tested using a Redundancy Analysis. A total of 1522 individuals and 168 morpho-species were captured in four months. Species richness showed no differences; however, parasitoid abundance was higher in young forest, while intermediate forest had the highest true diversity values (1 D) with 71.6 effective species. According to insect guilds, richness, abundance, and diversity were similar in the three vegetation successional stages. This finding may be explained based on the intermediate disturbance hypothesis, which postulates that moderate disturbance levels favor the highest diversity. In conclusion, successional age matters, i.e., diversity is the highest in intermediate stages, while the old forests harbors guilds unique to that successional stage, such as parasitoids of melitophagous larvae of bees. Other successional stages were characterized by a single species of parasitoid, belonging to the genera Eiphosoma and Anomalon, which may indicate altered and preserved forests, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

19. A comparative study of cultured and field plants provides evidence for the shy male hypothesis in tropical genotypes of Bryum argenteum Hedw.

Author

Luiz dos Santos, Wagner, Cavalcanti Pôrto, Kátia, Greenwood, Joshua, Davis, Andie, Pinheiro, Fábio, and Stark, Lloyd R.

Subjects

TROPICAL dry forests, GENOTYPES, MALES, SEX ratio

Abstract

Introduction. The female-biased sex ratio is recurrently observed in bryophyte populations, although the sex ratio of spores is usually balanced. The results of several studies have suggested explanations for this observation, one of which is the shy male hypothesis. The shy male hypothesis predicts that the sex ratio of populations is balanced in the field, but due to a low or lack of sex expression of male plants, the populations present a female bias when the sex ratio is based on observations of sex-expressing plants. Methods. We tested the shy male hypothesis using samples of the moss Bryum argenteum collected from Brazilian seasonally dry tropical forests and the Brazilian Atlantic Forest. Field sex ratios were determined by classifying shoots as male, female, or non-sex-expressing. Non-sex-expressing shoots were further analysed for sex expression after culture regeneration. Results and discussion. Our results showed that populations of Bryum argenteum in the field had a low rate of sex expression, and that most of the shoots expressed were female. However, when shoots without sex expression were cultured, a greater number of male shoots were observed compared with in the field plants. Because more males appeared in the shoots cultured from non-sex-expressing field plants, our data for tropical B. argenteum tend to support the shy male hypothesis. Some genotypes from the wet forest were synoicous (i.e. had male and female gametangia in the same gametoecia), suggesting polyploidy. [ABSTRACT FROM AUTHOR]

Published

2023

20. Changes in seed hydration memory expression in Pilosocereus catingicola (Gürke) Byles & G.D. Rowley subsp. salvadorensis (Werderm.) Zappi (Cactaceae) seeds produced during rainy and dry season.

Author

Lima, Ayslan Trindade and Meiado, Marcos Vinicius

Subjects

TROPICAL dry forests, HYDRATION, CACTUS, SEEDS, SEED development, BIOLOGICAL fitness

Abstract

In seasonally dry tropical forests, seeds are naturally submitted to hydration and dehydration cycles (HD cycles) during germination, which can promote the seed hydration memory expression. We investigated how seeds of Pilosocereus catingicola subsp. salvadorensis from the same population produced and dispersed in different seasons of the year express seed hydration memory under water deficit after discontinuous hydration, at different hydration times. We collected seeds produced during the dry season and dispersed at the beginning of the rainy season and seeds produced during the rainy season and dispersed at the beginning of the dry season. Seeds were submitted to 0, 1, 2 and 3 HD cycles with different hydration times and placed to germinate under optimal temperature and light conditions. After verifying that the hydration time between cycles did not influence germination response of the studied species, seeds collected in both seasons were submitted to 0, 1, 2 and 3 HD cycles and placed to germinate at different osmotic potentials (0.0, − 0.1, − 0.3, − 0.6, and − 0.9 MPa). After evaluating the germination parameters, we observed that (1) seeds from the same population, produced and dispersed in different seasons, express seed hydration memory in a different way during their germination process and (2) discontinuous hydration confers greater acquisition of tolerance to seeds produced during dry season. Such germination responses to HD cycles characterize the seed hydration memory expression, which is influenced by the environmental conditions present during seed development and post-dispersion, conferring ecological implications on the reproductive success of the species. [ABSTRACT FROM AUTHOR]

Published

2023

21. Biological soil crusts decrease infiltration but increase erosion resistance in a human-disturbed tropical dry forest.

Author

Szyja, Michelle, Felde, Vincent J. M. N. L., Lückel, Sara, Tabarelli, Marcelo, Leal, Inara R., Büdel, Burkhard, and Wirth, Rainer

Subjects

CRUST vegetation, TROPICAL dry forests, SOIL conservation, BIOENGINEERING, FOREST soils, GEOMORPHOLOGY, EROSION

Abstract

Under continuous human disturbance, regeneration is the basis for biodiversity persistence and ecosystem service provision. In tropical dry forests, edaphic ecosystem engineering by biological soil crusts (biocrusts) could impact regeneration by influencing erosion control and soil water and nutrient fluxes, which impact landscape hydrology, geomorphology, and ecosystem functioning. This study investigated the effect of cyanobacteria-dominated biocrusts on water infiltration and aggregate stability in a human-modified landscape of the Caatinga dry forest (NE Brazil), a system characterized by high levels of forest degradation and increasing aridity. By trapping dust and swelling of cyanobacterial filaments, biocrusts can seal soil surfaces and slow down infiltration, which potentially induces erosion. To quantify hydraulic properties and erosion control, we used minidisc-infiltrometry, raindrop-simulation, and wet sieving at two sites with contrasting disturbance levels: an active cashew plantation and an abandoned field experiencing forest regeneration, both characterized by sandy soils. Under disturbance, biocrusts had a stronger negative impact on infiltration (reduction by 42% vs. 37% during regeneration), although biocrusts under regenerating conditions had the lowest absolute sorptivity (0.042 ± 0.02 cm s-1/2) and unsaturated hydraulic conductivity (0.0015 ± 0.0008 cm s-1), with a doubled water repellency. Biocrusts provided high soil aggregate stability although stability increased considerably with progression of biocrust succession (raindrop simulation disturbed: 0.19 ± 0.22 J vs. regenerating: 0.54 ± 0.22 J). The formation of stable aggregates by early successional biocrusts on sandy soils suggests protection of dry forest soils even on the worst land use/soil degradation scenario with a high soil erosion risk. Our results confirm that biocrusts covering bare interspaces between vascular plants in human-modified landscapes play an important role in surface water availability and erosion control. Biocrusts have the potential to reduce land degradation, but their associated ecosystem services like erosion protection, can be impaired by disturbance. Considering an average biocrust coverage of 8.1% of the Caatinga landscapes, further research should aim to quantify the contribution of biocrusts to forest recovery to fully understand the role they play in the functioning of this poorly explored ecosystem. [ABSTRACT FROM AUTHOR]

Published

2023

22. A new cave-dwelling Maxchernes Feio, 1960 (Pseudoscorpiones: Chernetidae) from Brazil.

Author

Bedoya-Roqueme, Edwin, Tizo-Pedroso, Everton, Barbier, Eder, and de Araujo Lira, André Felipe

Subjects

TROPICAL dry forests, PSEUDOSCORPIONS

Abstract

During a survey of caves in a seasonally dry tropical forest area in northeastern Brazil, a new species of the genus Maxchernes was discovered and it is formally described here. The new species, named Maxchernes kapinawai sp. n., has affinities with M. iporangae, known from São Paulo State, Southeast Brazil. The new species, obtained from Pernambuco State, Northeastern Brazil, is characterized by the robust pedipalps, the measurements of pedipalpal femur, and patella different from other known Maxchernes species, in addition to the number of chelal teeth and males larger than females. This new species also represents the north-most record of Maxchernes genera so far. Ecological and conservation comments are included, as well as a map including reports known about the previous species. [ABSTRACT FROM AUTHOR]

Published

2023

23. Weight-of-evidence approach for assessing agroforestry contributions to restore key ecosystem services in tropical dry forests.

Author

Silva-Galicia, Ana, Valencia, Vivian, Arroyo-Rodríguez, Víctor, and Ceccon, Eliane

Subjects

TROPICAL dry forests, WOODEN beams, AGROFORESTRY, SILVOPASTORAL systems, FARMS, CARBON sequestration, ECOSYSTEM services, ECOSYSTEMS

Abstract

Worldwide deforestation and degradation are limiting the capacity of tropical dry forests (TDFs) to provide environmental services. Agroforestry systems (AFSs) are agricultural land systems that combining perennial elements with crops, can provide important benefits to people (e.g. timber and non-timber products) and the environment (e.g. hosting biodiversity). Using a semi-quantitative methodology (i.e. weight of evidence), we assessed the role of the three main types of AFSs (intercropping, multistrata and silvopastoral and protective systems) in restoring key ecosystem services in TDFs. We found that each type of AFSs contributed differently to soil quality restoration, productivity, biodiversity, carbon sequestration, and culture preservation. Yet, AFSs can also deliver few disservices, such as yield reductions. Despite the identified knowledge gaps, such as the carbon sequestration capacity, our findings indicate that AFSs can contribute to restore TDFs by providing valuable ecosystem services to halt degradation and sustain people's livelihood. [ABSTRACT FROM AUTHOR]

Published

2023

24. Foxes and goats: the outcome of free-ranging livestock farming in Brazilian dry forests.

Author

Alves, Tainá S., Alvarado, Fredy, Arroyo-Rodríguez, Víctor, and Santos, Bráulio A.

Subjects

TROPICAL dry forests, DRY farming, GOATS, LIVESTOCK farms, FOXES, MILK contamination, LANDSCAPE assessment, BIOTIC communities

Abstract

Humans are promoting drastic changes in biological communities that result in 'winner-loser' species replacements across multiple spatial scales. In tropical regions, such replacements can be particularly driven by deforestation, especially in landscapes devoted to free-ranging livestock production in which mixing native and exotic species can create species-poor and homogenized communities. We tested this hypothesis assessing medium- and large-bodied non-volant mammals in four 16-km2 landscapes with varying deforestation levels (5%, 30%, 70%, and 95% forest cover), where exotic mammals (e.g., cows and goats) have free access to the remaining Caatinga dry forest. Using camera traps, we obtained 2808 independent records of 17 species, most of them (2054 records, 73%) corresponding to seven exotic species. Native Cerdocyon thous (crab-eating fox) and exotic Capra hircus (goat) accounted for almost half of the records and 60–80% of the records in the two most deforested landscapes. Alpha diversity did not differ significantly among landscapes, but the two more forested landscapes tended to have more native species than exotic ones. Beta diversity patterns among and within landscapes were relatively low regardless of species abundance, indicating biotic homogenization at multiple spatial scales. We conclude that a novel mammal community full of exotic mammals and a few generalist natives has been established in the study region. To promote environmental-friendly livestock farming in the largest tropical dry forest of South America, we should avoid deforestation, especially in sites that concentrate native species, segregate lands for livestock and conservation, and boost inspection against illegal hunting. [ABSTRACT FROM AUTHOR]

Published

2023

25. Chronic anthropogenic disturbance causes homogenization of plant and ant communities in the Brazilian Caatinga.

Author

Ribeiro-Neto, José, Arnan, Xavier, Tabarelli, Marcelo, and Leal, Inara

Subjects

ANTHROPOGENIC effects on nature, ASYMPTOTIC homogenization, PLANT communities, ANT communities, ANT ecology

Abstract

Although chronic anthropogenic disturbance (CAD) represents a significant threat to the integrity of tropical biotas, few efforts have been made to understand its impacts. We address the effects of CAD on plant and ant communities in the Caatinga, a seasonally dry tropical forest in northeast Brazil. Both taxa were recorded across 25 0.1-ha plots within a 220-km landscape dominated by old-growth vegetation exposed to human activities. CAD was measured indirectly via a disturbance index, which was calculated from proxies of human disturbance such as plot distance to roads and villages, and density of people and livestock. Plant and ant abundance was not correlated to the CAD index. However, CAD had negative, positive or neutral effects on species diversity, depending upon diversity measure, taxa and soil type; e.g. plants were more negatively affected than ants. Furthermore, several plant and ant species exhibited higher abundance in the most disturbed vegetation patches while some exhibited lower abundance. Species-level responses resulted in taxonomic responses at the community level and increments in cross-plot species similarity as CAD increased. Our results indicate that: (1) CAD affects several community-level attributes, but with differing intensities; (2) community-level effects can be either positive or negative, and effects are soil dependent; (3) plants are more negatively affected than ants; (4) some species benefit, while others are negatively affected by CAD; and (5) by affecting the abundance and occurrence of particular species, CAD causes biotic homogenization towards the higher end of the disturbance gradient. [ABSTRACT FROM AUTHOR]

Published

2016

26. Agroecological and agroforestry strategies to improve organic hibiscus productivity in an Indigenous non-governmental organization from Mexico.

Author

Silva-Galicia, Ana, Larsen, John, Álvarez-Espino, Ricardo, and Ceccon, Eliane

Subjects

AGROFORESTRY, NONGOVERNMENTAL organizations, CROPPING systems, HIBISCUS, LAND degradation, TROPICAL dry forests, CORN stover

Abstract

La Montaña region, in southern Mexico, is characterized as a highly human-modified landscape with a rough topography, extreme poverty and structural violence. In this region, Xuajin Me'Phaa, an Indigenous non-governmental organization conformed by ca. 300 peasants, implements productive restoration projects and trades organic hibiscus (Hibiscus sabdariffa L.) as its main monetary income. Nonetheless currently, organic hibiscus yield is low compared to the potential yields in the region. Thus, it is necessary to explore alternative sustainable land management systems which enable farmers to increase hibiscus crop productivity, while halting land degradation. This study assessed the impact of six different agroecological fertilization protocols (AFPs) on hibiscus productivity planted in an alley cropping system with Calliandra houstoniana trees. The AFPs were based on the combination of three local plant amendments: C. houstoniana mulch, Mucuna pruiriens var. utilis green manure and hibiscus stover, and a commercial bio-fertilizer (Azospirillum + Rhizophagus). Simultaneously, the performance of C. houstoniana trees was assessed. The AFPs were applied in the alley cropping system and evaluated from 2016 to 2018. After 3 years, in the AFPs which included C. houstoniana mulch, hibiscus yielded significantly more (419 ± 27 kg dry calyxes ha-1 in average) than AFPs which did not include this species (264 ± 15 kg ha-1). The 18-month-old C. houstoniana trees yielded 0.6 t ha-1 of dry biomass and 1.12 t ha-1 of wooden stakes, a relatively low production. In conclusion, our results show that alley cropping with a denser arrangement of C. houstoniana trees in combination with mulching of this tree species, and use of mucuna green manure represent a promising agroforestry system for organic hibiscus production. [ABSTRACT FROM AUTHOR]

Published

2023

27. Forest biomes of Southern Africa.

Author

Mucina, Ladislav, Lötter, Mervyn C., Rutherford, Michael C., van Niekerk, Adriaan, Macintyre, Paul D., Tsakalos, James L., Timberlake, Jonathan, Adams, Janine B., Riddin, Taryn, and Mccarthy, Lauren K.

Subjects

TROPICAL dry forests, BIOMES, MANGROVE plants, COASTAL forests, DIGITAL maps, BIOTIC communities

Abstract

The forests of South Africa and the neighbouring countries, including Lesotho, eSwatini, Namibia, Botswana, Zimbabwe, and Mozambique (south of the Zambezi River), were mapped and classified according to the global system of biomes. The new four-tier hierarchical biome system suggested in this paper includes zonobiome, global biome, continental biome (all recognised earlier), and regional biome – a novel biome category. The existing spatial coverages of the forests were revised and considerably improved, both in terms of forest-patch coverage and mapping precision. Southern Africa is home to three zonal forest types, namely Subtropical Forests (Zonobiome I), Tropical Dry Forest (TDF; Zonobiome II) and Afrotemperate Forests (Zonobiome X). These three biomes are characterised by unique bioclimatic envelopes. Five, two, and eight regional biomes, respectively, have been recognised within these zonal biomes. Recognition of the Zonobiome I and the global biome Tropical Dry Forests in southern Africa is novel and expands our knowledge of the biome structure of African biotic communities. The system of the azonal regional biomes is also new and comprehensively covers the variability of the azonal helobiomes (riparian woodlands and swamp forests), mangroves, and azonal coastal forests. In total, 11 azonal regional biomes have been recognised in the study area. The forest biomes in southern Africa were captured in our electronic map in the form of more than 60 000 polygons, covering 42 416 km2 (1.27% of the study area). No less than 83% of these forests occur in the territory of southern Mozambique. Abbreviations: for the abbreviation of the biome units, see Table 1; CE: centre of endemism; IOCB: Indian Ocean Coastal Belt; MBSA: the area of the Map of Biomes of Southern Africa; VegMap2006 and VegMap2018: Vegetation Map of South Africa, Lesotho and Swaziland (as released in respective years); for the meaning of the codes of the biome units see Table 1, and for the meaning of the abbreviations of climatic characteristics see Appendix S1 [ABSTRACT FROM AUTHOR]

Published

2022

28. Assessing life zone changes under climate change scenarios in Brazil.

Author

de Lima, Rafael Fausto, de Oliveira Aparecido, Lucas Eduardo, Lorençone, João Antonio, Lorençone, Pedro Antonio, Torsoni, Guilherme Botega, da Silva Cabral Moraes, José Reinaldo, and de Meneses, Kamila Cunha

Subjects

LIFE zones, CLIMATE change models, TROPICAL dry forests, POWER resources

Abstract

Climate classification systems are tools that facilitate the analysis, grouping, delimitation, and dissemination of the climatic characteristics of a region, contributing to the circumscribing of areas suitable for the agriculture and to the validation of various models of climate change. In this study, Brazilian life zone types were identified by using the initial variant of the well-known Holdridge eco-climatological classification, under different climate change scenarios. To describe current conditions in Brazil, daily time series of temperature and precipitation for the period 1989–2019 are used, derived from the National Aeronautics and Space Administration/Prediction of Worldwide Energy Resources (NASA/POWER) platform. Climate change was considered through four alternative scenarios. According to the original classification, under current conditions, the dominant life zone type is the type tropical basal moist forest, covering 60.57% of the country. An increase in temperature can cause a decrease in the dominance of this life zone type, though approximately half of the country may be covered by this type. Furthermore, in case of an increase of 3 °C, the type tropical basal dry forest could already cover a third of Brazil. An increase of 30% in precipitation could cause the emergence of several new life zone types, while the extent of the type tropical basal moist forest could then decrease to 50.12%. Due to the high variability of the life zone types obtained, the Holdridge system can be considered a useful tool to illustrate climate change impacts. [ABSTRACT FROM AUTHOR]

Published

2022

29. Biocultural restoration improves delivery of ecosystem services in social‐ecological landscapes.

Author

Sena, Pedro H. A., Gonçalves‐Souza, Thiago, Gonçalves, Paulo H. S., Ferreira, Paulo S. M., Gusmão, Reginaldo A. F., and Melo, Felipe P. L.

Subjects

FOREST restoration, ECOSYSTEM services, TRADITIONAL ecological knowledge, DELIVERY of goods, TRADITIONAL knowledge, RESTORATION ecology, TROPICAL dry forests

Abstract

Increasing local people and indigenous communities' participation on restoration programs is widely recommended as a way to increase restoration long‐term benefits and local people's commitment with restored lands. Here, we demonstrate how traditional knowledge can provide crucial information on usefulness of plant species that increases direct value of forest and landscape restoration programs. Our study analyzed secondary data from 73 studies that assessed indigenous and local knowledge regarding plant's utility across the densely populated dry forest of the Brazilian Caatinga. Our results suggest that highly valued plants represent a relatively small number of useful species (52 out of 632 useful species) that account for more than half of the plant services (i.e. functional space represented by the uses people give to plants). Interestingly, these plants belonged to closely related lineages, suggesting that people must select plants based on phylogenetically conserved traits that provide utility. We propose that accounting for indigenous and local knowledge in early phases of restoration process such as species selection can both maximize classical restoration targets (e.g. species diversity) and increase delivery of ecosystem services to forest‐dependent people. Such an interdisciplinary integration moves us a step closer to ambitious targets set for global ecosystem restoration based on fair and inclusive participation of indigenous people and local communities. [ABSTRACT FROM AUTHOR]

Published

2022

30. Aridity, but not disturbance, reduces the specialization and modularity of plant–insect herbivore interaction networks in Caatinga dry forest.

Author

Santos-Neto, Pedro E., Arnan, Xavier, Ribeiro-Neto, José D., Wirth, Rainer, and Leal, Inara R.

Subjects

TROPICAL dry forests, BIOLOGICAL extinction, INSECT communities, INSECT conservation, INSECT behavior, INSECT diversity, SPECIALTY hospitals

Abstract

Plant–herbivore networks comprise over 40% of the global biodiversity and are negatively impacted by habitat loss and fragmentation. However, the extent to which these networks are affected by chronic anthropogenic disturbances and aridity, the most common threats to biodiversity in dry forests, remain unknown. In this study, we examined plant and insect herbivore communities and their interaction networks facing chronic disturbance and aridity gradients in the Caatinga dry forest of northeast Brazil. Our results indicate that aridity and disturbance differentially influenced plant and insect communities. Aridity was accompanied by a reduction in the richness of plant, but not insect species. In contrast, while disturbance was associated with an increase in species richness of sap-sucking insects, it remained unrelated to plant richness. Both aridity and disturbance were identified as factors shaping plant community composition, while insect assemblages only corresponded to aridity. Aridity, but not disturbance, was consistently accompanied by a reduction in network metrics. More precisely, aridity was negatively correlated with network specialization and with the modularity of local webs. Our results also showed that aridity can alter the specialization of specific insect species, suggesting that not only species composition changes can be a key factor modifying network topology, but also shifts in insect behavior across environmental gradients. Our key takeaways are: (1) aridity adversely impacts the dry forest plant community; (2) disturbance can benefit insect feeding guilds such as sap-sucking; and (3) aridity can provoke less specialized interactions at both, species, and network levels. Implications for insect conservation: Our results show that aridity disrupts plant–insect herbivore interactions and may trigger cascading extinctions of insect species by reducing the specialization level of their interaction networks. [ABSTRACT FROM AUTHOR]

Published

2022

31. Socioeconomic and ecological indicators in willingness to accept compensation for the conservation of medicinal plants in a tropical dry forest.

Author

Laurentino, Marcelânio, de Lima Araújo, Elcida, Ramos, Marcelo Alves, Cavalcanti, Maria Clara Bezerra Tenório, Gonçalves, Paulo Henrique Santos, and Albuquerque, Ulysses Paulino

Subjects

TROPICAL dry forests, BIOINDICATORS, PLANT conservation, PLANT drying, SOCIOECONOMIC factors

Abstract

The contingent valuation method employs a hypothetical scenario to record a person's declared preference with regard to their willingness to pay for an environmental asset or willingness to accept (WTA) compensation for not using it. Many studies have evaluated the inclination to conserve watersheds, forest areas, or certain species. In this study, we reported the economical values of medicinal species based on the perceptions of locals living within a protected area in a seasonal dry tropical forest in Northeastern Brazil. Moreover, we assessed the effects of socioeconomic variables (gender, family income, and family size) on the WTA compensation for not using the species. We interviewed 96 household heads from seven communities to obtain their socioeconomic data and WTA values. Additionally, we used data from a plant inventory to gather information on species abundance. We found that the selected socioeconomic variables are a poor predictor of the WTA values. Our findings also demonstrate that women accept lower WTA values to not use some species. Additionally, individuals from bigger families accept lower WTA values to not use just one of the plant species. Species abundance did not influence informants' WTA values. Generally, informants overestimated bids, which may hinder biodiversity conservation. Socioeconomic and ecological factors may not have an influence on WTA values in communities that inhabit protected areas. [ABSTRACT FROM AUTHOR]

Published

2022

32. Dung beetle assemblage (Coleoptera: Scarabaeinae) from an altitudinal enclave of rainforest surrounded by a Seasonally Tropical Dry Forest in the Neotropics.

Author

Salomão, R. P., Lira, A. F. A., Foerster, S. I. A., and Vaz-de-Mello, F. Z.

Subjects

DUNG beetles, TROPICAL dry forests, RAIN forests, BEETLES, PITFALL traps, INSECT diversity, MOUNTAIN forests

Abstract

Altitudinal enclaves of rainforest are fragile and highly disturbed ecosystems located in high-altitude plateaus and mountains that are surrounded by Caatinga dry forest. Regardless of its biological importance, few studies regarding dung beetle assemblage were performed in an altitudinal enclave of rainforest. The aim of this study was to describe the structure of dung beetle assemblage from an altitudinal enclave of rainforest in the municipality of Triunfo, Pernambuco, Northeastern Brazil. Dung beetles were surveyed in the beginning of the rainy season using pitfall traps baited with excrement. Beetle diversity patterns were subsequently explored using Hill numbers. A total of 217 individuals belonging to 13 species and nine genera were recorded, and Dichotomius carbonarius (Mannerheim 1829), Uroxys bahianus Boucomont 1927, and Eurysternus nigrovirens Génier 2009 were the most abundant species. According to Hill numbers, there were five abundant species and three dominant species in the dung beetle assemblage. Also, there were two distinct beetle assemblages in the region of Triunfo, being most of the species commonly collected in Caatinga dry forest, as Deltochilum verruciferum Felsche 1911, Deltochilum sp., and U. bahianus. This study contributes to the scarce knowledge regarding diversity of dung beetles that inhabits altitudinal enclaves of rainforest of Northeastern Brazil, with a total of 43 species being currently recorded in such forests. [ABSTRACT FROM AUTHOR]

Published

2022

33. Viability meets suitability: distribution of the extinction risk of an imperiled titi monkey (Callicebus barbarabrownae) under multiple threats.

Author

Barreto, Hamilton Ferreira, Jerusalinsky, Leandro, Eduardo, Anderson A., Alonso, André Chein, Júnior, Eduardo Marques Santos, Beltrão-Mendes, Raone, Ferrari, Stephen F., and Gouveia, Sidney F.

Subjects

POPULATION viability analysis, ENDANGERED species, SPECIES distribution, MONKEYS, TROPICAL dry forests, CLIMATE change, DESERTIFICATION, DEFORESTATION

Abstract

Ongoing environmental changes may reduce the population size and geographic distribution of many ecologically sensitive species. Predicting where populations will (or will not) be likely to resist these changes is crucial for planning their protection. The blond titi monkey (Callicebus barbarabrownae) is listed as Critically Endangered by the International Union for Conservation of Nature because of its small and declining population due to deforestation and hunting. The species is endemic to the Brazilian Caatinga dry forest, which has undergone extensive deforestation and climate-induced desertification. We address the extinction risk of this species in a spatially explicit context by predicting the geographic distribution of suitable areas that may permit the persistence of potentially viable populations over the next 50 years. We combined species distribution modeling with population viability analysis under more optimistic and pessimistic climate change scenarios and simulated forest loss, assessing how different populations will likely cope with these changes during the coming decades. Future models did not differ between the scenarios, but changes in the climatic suitability of the species' habitat predicted a reduction of one-third of the currently suitable area. Viable populations in large forest remnants represent only a quarter of all known populations, and they also face a decline in climatic suitability. Smaller populations may be extirpated, regardless of the level of forest recovery. This species' long-term persistence entails improving habitat quality and the connectivity of the large remnants to neighbor areas. Finally, the integration of spatial and temporal models is feasible and helpful to address threats and aid the conservation of primates. [ABSTRACT FROM AUTHOR]

Published

2022

34. Unraveling centric diatoms from the Caatinga: Coscinodiscophyceae and Mediophyceae in northwestern Ceará, Brazil.

Author

Rodrigues Maciel, Maria Gabrielle, Pereira Cavalcante, Kaoli, and Veiga Ludwig, Thelma Alvim

Subjects

DIATOMS, TROPICAL dry forests, FOSSIL diatoms, ARID regions, PHENOTYPIC plasticity, SCANNING electron microscopy, BIODIVERSITY

Abstract

Copyright of Rodriguésia is the property of Revista Rodriguesia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

35. Bat-ectoparasitic fly relationships in a seasonally dry tropical forest in Brazil.

Author

Barbier, Eder, Falcão, Fábio, and Bernard, Enrico

Subjects

TROPICAL dry forests, BAT conservation, BLOODSUCKING insects, HOST-parasite relationships

Abstract

Bat ectoparasitic flies are hematophagous insects highly specialized to parasitize only bats. Knowledge about how biotic and abiotic factors can influence ecological relationships between parasites and hosts is in general incipient. Large information gaps are even worst in biodiversity-rich, but poorly sampled areas like Brazil's Caatinga, the largest tropical dry forest in South America. We used bats and their highly specialized ectoparasitic flies as a study model to clarify some aspects of this host-parasite system in this semiarid environment. We conducted fieldwork at 55 sites in the Caatinga, between April 2017 and March 2020 and collected 1300 flies (19 species) on 333 bats (15 species). Bat ectoparasitic flies were highly host-specific, had an aggregated distribution, frequently formed infracommunities with only one species, and had a male-biased sex ratio. Except for the prevalence of the streblid fly Strebla guajiro on Carollia perspicillata, which was significantly higher in the rainy season, bat flies showed no preference — expressed by frequency and intensity of infestation — for host sex, and their interspecific relationships were not mediated by rainfall. Other variables that could potentially be interfering in this host-parasite relationship deserve further attention, especially in environments such as the Caatinga where there is great seasonal variation. Furthermore, the existence of species-specific responses must be taken into account. [ABSTRACT FROM AUTHOR]

Published

2021

36. Wood volume estimation strategies for trees from a Dry Forest/Savannah transition area in Piauí, Brazil.

Author

Nazareno, Lailla Sabrina Queiroz, Ribeiro, Andressa, Sousa, Mylla Vyctória Coutinho, Vieira, Cynthia Wanick, and Ferraz Filho, Antonio Carlos

Subjects

TROPICAL dry forests, FOREST management, FOREST surveys, PLANT identification, DEAD trees, SAVANNAS

Abstract

Prediction of aboveground wood volume is one of most important stages when conducting a forest inventory and making forest management decisions. This is more difficult for native forest than for plantations given the high variability of the former (trees of different species and age groups). The objective of this work was to evaluate different strategies to estimate aboveground standing tree wood volume (v) using its diameter at breast height (DBH) and total height (h), comparing the use of form factors, volume equations fitted by ordinary least squares and mixed modelling, as well as the options from the literature. To achieve this, 351 trees were scaled during field campaigns, with 158 felled trees and 193 measured using Criterion equipment. The data collected from each scaled tree was: h, DBH, v and identification of the botanical species. We found that the best application of form factors occurred when the trees were divided by diameter classes. However, regression models, regardless of the fitting technique, presented better volume estimates than form factors. Mixed models, with either the species or diameter class as the random variable, provided the lowest errors when estimating tree volume. Thus, we recommend the use of mixed models as the best strategy to estimate volume of standing trees. The following equation can be used to estimate aboveground wood volume for trees from vegetation types similar to the ones of this study: ln(v) = −9.06013 + 1.91756 ln(DBH) + 0.69846 ln(h). [ABSTRACT FROM AUTHOR]

Published

2021

37. Arbuscular Mycorrhizal Fungal Community Structure in the Rhizosphere of Three Plant Species of Crystalline and Sedimentary Areas in the Brazilian Dry Forest.

Author

dos Passos, José Hilton, Maia, Leonor Costa, de Assis, Daniele Magna Azevedo, da Silva, Jailma Alves, Oehl, Fritz, and da Silva, Iolanda Ramalho

Subjects

TROPICAL dry forests, PLANT species, CLAY, BACTERIAL communities, FUNGAL communities, RHIZOSPHERE, VESICULAR-arbuscular mycorrhizas, SOIL density

Abstract

The Brazilian dry forest (Caatinga) is located in one of the world's largest tropical semiarid regions, and it occurs on two large geological environments named the crystalline and sedimentary basins. In order to determine the structure and the main drivers of the composition of communities of arbuscular mycorrhizal fungi (AMF) in the Caatinga, we collected soil samples from the rhizosphere of Jatropha mollissima, J. mutabilis, and Mimosa tenuiflora, species that occur in crystalline and sedimentary areas. Ninety-six AMF taxa were identified from soils collected directly in the field and trap cultures. Acaulospora, Glomus, and Rhizoglomus represented almost 49% of the taxon richness. The composition of the AMF communities differed between the crystalline and sedimentary areas and between the rhizospheres of the three plant species. Coarse sand, total sand, natural clay, calcium, soil particles density, flocculation, pH, and base saturation were the principal edaphic variables related to the distribution of these organisms. We registered nine and 17 AMF species classified as indicators, for the geological environments and plant species, respectively. Glomerospores of Glomerales predominated in crystalline basins, whereas glomerospores of Gigasporales prevailed in sedimentary areas; among the plant species, lower number of glomerospores of Archaeosporales and Glomerales was recorded in the rhizosphere of J. mollissima. The results show that the AMF community composition is shaped by geological environments and plant hosts. In addition, soil characteristics, mainly physical attributes, significantly influence the structure of Glomeromycota communities occurring in areas of the Brazilian semiarid. [ABSTRACT FROM AUTHOR]

Published

2021

38. Implementing Brazil's Forest Code: a vital contribution to securing forests and conserving biodiversity.

Author

Brock, Rebecca Catherine, Arnell, Andy, Simonson, Will, Soterroni, Aline C., Mosnier, Aline, Ramos, Fernando, Ywata de Carvalho, Alexandre Xavier, Camara, Gilberto, Pirker, Johannes, Obersteiner, Michael, and Kapos, Valerie

Subjects

FOREST biodiversity, FOREST restoration, FOREST reserves, TROPICAL dry forests, BIODIVERSITY conservation, LAND use, MARINE biodiversity

Abstract

Meeting Brazil's ambitious national commitments on both climate change mitigation and biodiversity conservation depends on securing its reserves of forest carbon and biodiversity. Brazil's 'Forest Code' is a key tool to reconcile environmental preservation and agricultural production; it limits deforestation and requires forest restoration in illegally deforested areas. However, not all provisions of the law's 2012 revision have yet been implemented and some are facing new challenges. Using modelled land use change projections for the whole of the country, we show that full implementation and enforcement of the law has the potential to contribute to conserving biodiversity. Biodiversity outcomes will be especially positive if (i) deforested areas are restored in ways that support recolonization by native species and (ii) additional measures are implemented to protect native vegetation in areas like Caatinga dry forests and Cerrado savannas, which may experience added pressure displaced from other regions by Forest Code implementation. [ABSTRACT FROM AUTHOR]

Published

2021

39. Understanding the effects of human disturbance on scorpion diversity in Brazilian tropical forests.

Author

Lira, André F. A., Foerster, Stênio I. A., Salomão, Renato P., Porto, Tiago J., Albuquerque, Cleide M. R., and Moura, Geraldo J. B.

Subjects

TROPICAL forests, SCORPIONS, INSECT conservation, TROPICAL dry forests, CONSERVATION biology, FOREST biodiversity, INSECT diversity

Abstract

The effects of land use conversion on the maintenance of biodiversity remains a major issue in conservation biology. With this as context, recent studies have successfully evaluated the potential of scorpions as bio-indicators of human disturbance. Here, we explored this assumption to identify the effects of landscape structure on scorpion assemblages distributed in two tropical environments in Brazil, with different levels of human disturbance. Scorpions were collected from 28 sampling localities across the Atlantic Forest (n = 12) and Caatinga dry forest (n = 16), resulting in 3,781 specimens from 13 species, 5 genera, and 2 families. We found that scorpion species composition and abundance were more sensitive to changes in landscape configuration than was species richness. Additionally, scorpion assemblage responses were quite different between the two environments. From this observation we highlighted three main findings: (i) the Atlantic Forest assemblage possesses an abundance-dependent response to landscape; (ii) variation in species composition of Atlantic Forest and Caatinga were affected by landscape diversity and presence of croplands, respectively; (iii) the Atlantic Forest is inhabited by assemblages that are more sensitive to landscape changes than that is Caatinga. Implications for insect conservation: We argue that a site-dependent process may explain the effects of human activities on scorpion assemblages at local and regional scale. Moreover, we provide substantial information for decision-makers to support their conservation strategies for neglected ecosystems, such as those present in Caatinga and the Atlantic Forest. [ABSTRACT FROM AUTHOR]

Published

2021

40. Climbing plants from Seridó Ecological Station: diversity, interactive key and five new records from Rio Grande do Norte state, Brazil.

Author

Lambert Moreira, Fernanda Gondim, de Paiva Moreira, Víctor, Borges do Nascimento, Maurício, Amorim de Paula, Luiza Fonseca, de Loyola Dias, Rodrigo, and Antunes Carvalho, Fernanda

Subjects

PLANT diversity, TROPICAL dry forests, BOTANY, DODDER, CONVOLVULACEAE

Abstract

Copyright of Rodriguésia is the property of Revista Rodriguesia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

41. Living in the dark: Bat caves as hotspots of fungal diversity.

Author

Cunha, Aline O. B., Bezerra, Jadson D. P., Oliveira, Thays G. L., Barbier, Eder, Bernard, Enrico, Machado, Alexandre R., and Souza-Motta, Cristina M.

Subjects

BATS, CAVES, TROPICAL dry forests, FOOD habits, PHYLA (Genus), TALAROMYCES

Abstract

Bat caves are very special roosts that harbour thousands of bats of one or more species. Such sites may hold an incredible "dark fungal diversity" which is still underestimated. We explored the culturable fungal richness in the air, on bats, and in the guano in a bat cave in Brazil's Caatinga dry forest. Fungal abundance was 683 colony-forming units (CFU) in the guano, 673 CFU in the air, and 105 CFU on the bats. Based on morphological and phylogenetic analysis of ITS, LSU, and TUB2 sequences, fungal isolates of 59 taxa belonging to 37 genera in the phyla Ascomycota (28 genera, including Aspergillus, Penicillium, Cladosporium, and Talaromyces), Basidiomycota (eight genera, including Rhodotorula and Schizophyllum), and Mucoromycota (only Rhizopus) were identified. The fungal richness in the air was 23 taxa (especially Aspergillus taxa), mainly found at 15 m and 45 m from the cave entrance; on the bodies of bats it was 36 taxa (mainly Aspergillus taxa), especially on their wing membranes (21 taxa, nine of which were exclusively found in this microhabitat); and in guano 10 fungal taxa (especially Aspergillus and Penicillium) were found. The fungal richness associated with guano (fresh and non-fresh) was similar from bats with different eating habits (insectivorous, frugivorous, and haematophagous). Sampling effort was not sufficient to reveal the total fungal taxa richness estimated. Eight (21.6%) of the 37 genera and 17 (53.1%) of the 32 identified fungal species are reported for the first time in caves. Our results highlight bat caves in Brazil as hotspots of fungal diversity, emphasizing the need to protect such special roosts. [ABSTRACT FROM AUTHOR]

Published

2020

42. Habitat conversion affects beta diversity in frugivorous butterfly assemblages.

Author

Santos, Andréia de Carvalho, Sales, Paulo César Lima, Ribeiro, Danilo Bandini, and Silva, Paulo Roberto Ramalho

Subjects

BIOLOGICAL extinction, TROPICAL dry forests, NATURE reserves, HABITATS, AGRICULTURAL ecology

Abstract

Tropical dry forests are diverse ecosystems that are globally threatened but are rarely protected. The main threat to this habitat is conversion for agricultural use. Here we evaluate the effects of environmental conversion, comparing patterns of beta diversity of butterflies in unconverted dry forest ecosystems (protected areas) and in agroecosystems (sugarcane and pasture). Butterflies were collected for 720 traps/day in 2018, using baited traps. Contrary to expectations, temporal beta diversity in sugarcane was higher than in forests. Nevertheless, the community in sugarcane contained mainly generalist species and its temporal dissimilarity was driven mainly by differences in species abundance. As expected, the spatial beta diversity between forest ecosystems and agroecosystems was high. Environmental conversion led to species loss, affecting mainly specialist species, which are more restricted to forest habitats, and resulted in a high degree of nesting of communities in agroecosystems. Our results emphasize the conservation value of protected natural areas and the importance of maintaining such areas as an essential strategy for conserving biodiversity. [ABSTRACT FROM AUTHOR]

Published

2020

43. Drought response strategies of deciduous and evergreen woody species in a seasonally dry neotropical forest.

Author

de Souza, Bruno Cruz, Carvalho, Ellen Cristina Dantas, Oliveira, Rafael S., de Araujo, Francisca Soares, de Lima, André Luiz Alves, and Rodal, Maria Jesus Nogueira

Subjects

TROPICAL dry forests, WOOD density, DEFOLIATION, HYDRAULIC conductivity, SOIL air

Abstract

Deciduous and evergreen trees are usually considered the main coexisting functional groups in seasonally dry tropical forests (SDTF). We compared leaf and stem traits of 22 woody species in the Brazilian Caatinga to investigate whether deciduous (DC) and evergreen (EV) species have divergent water-use strategies. Our hypothesis was that DC trees compensate for their short leaf longevity by being less conservative in water use and showing higher variation in the seasonal water potential after leaf shedding. Evergreen species should exhibit a highly conservative water use strategy, which reduces variations in seasonal water potential and the negative effects of desiccation. Our leaf dynamics results indicate that the crown area of DC trees is more sensitive to air and soil drought, whereas EV trees are only sensitive to soil drought. Deciduous species exhibit differences in a set of leaf traits confirming their acquisitive strategy, which contrasts with evergreen species. However, when stomatal traits are considered, we found that DC and EV have similar stomatal regulation strategies (partially isohydric). We also found divergent physiological strategies within DC. For high wood density DC, the xylem water potential (Ψxylem) continued to drop during the dry season. We also found a negative linear relationship between leaf life span (LL) and the transpiration rate per unit of hydraulic conductivity (Λ), indicating that species with high LL are less vulnerable to hydraulic conductivity loss than early-deciduous species. Collectively, our results indicate divergence in the physiology of deciduous species, which suggests that categorizing species based solely on their leaf phenology may be an oversimplification. [ABSTRACT FROM AUTHOR]

Published

2020

44. Seed germination and early seedling survival of the invasive species Prosopis juliflora (Fabaceae) depend on habitat and seed dispersal mode in the Caatinga dry forest.

Author

de Souza Nascimento, Clóvis Eduardo, Domingues da Silva, Carlos Alberto, Roberta Leal, Inara, de Souza Tavares, Wagner, Eduardo Serrão, José, Cola Zanuncio, José, and Tabarelli, Marcelo

Subjects

SEED dispersal, PROSOPIS juliflora, TROPICAL dry forests, INTRODUCED species, GERMINATION

Abstract

Background: Biological invasion is one of the main threats to tropical biodiversity and ecosystem functioning. Prosopis juliflora (Sw) DC. (Fabales: Fabaceae: Caesalpinioideae) was introduced in the Caatinga dry forest of Northeast Brazil at early 1940s and successfully spread across the region. As other invasive species, it may benefit from the soils and seed dispersal by livestock. Here we examine how seed dispersal ecology and soil conditions collectively affect seed germination, early seedling performance and consequently the P. juliflora invasive potential. Methods: Seed germination, early seedling survival, life expectancy and soil attributes were examined in 10 plots located across three habitats (flooding plain, alluvial terrace and plateau) into a human-modified landscape of the Caatinga dry forest (a total of 12,000 seeds). Seeds were exposed to four seed dispersal methods: deposition on the soil surface, burial in the soil, passed through cattle (Boss taurus) digestive tracts and mixed with cattle manure and passed through mule (Equus africanus asinus × Equus ferus caballus) digestive tracts and mixed with mule manure. Seeds and seedlings were monitored through a year and their performance examined with expectancy tables. Results: Soils differed among habitats, particularly its nutrient availability, texture and water with finely-textured and more fertile soils in the flooding plain. Total seed germination was relatively low (14.5%), with the highest score among seeds buried in the flooding plain (47.4 ± 25.3%). Seed dispersal by cattle and mule also positively impacted seed germination. Early seedling survival rate of P. juliflora was dramatically reduced with few seedlings still alive elapsed a year. Survival rate was highest in the first 30 days and declined between 30 and 60 days with stabilization at 70 days after germination in all seed treatments and habitats. However, survival and life expectancy were higher in the flooding plain at 75 days and lower in the plateau. Prosopis juliflora seedling survival and life expectancy were higher in the case seeds were mixed with cattle manure. Synthesis: Prosopis juliflora seeds and seedlings are sensitive to water stress and habitat desiccation. Therefore, they benefit from the humid soils often present across human-disturbed flooding plains. This plant also benefits from seed deposition/dispersal by livestock in these landscapes, since cattle manure represents a nutrient-rich and humid substrate for both seeds and seedlings. The quality of the seed dispersal service varies among livestock species, but this key mutualism between exotic species is due to the arillate, hard-coated and palatable seeds. Prosopis juliflora traits allow this species to take multiple benefits from human presence and thus operating as a human commensal. [ABSTRACT FROM AUTHOR]

Published

2020

45. Taxonomic affiliation influences the selection of medicinal plants among people from semi-arid and humid regions--a proposition for the evaluation of utilitarian equivalence in Northeast Brazil.

Author

Reinaldo, Rafael, Albuquerque, Ulysses, and Medeiros, Patrícia

Subjects

PLANT selection, ARID regions, RAIN forests, MEDICINAL plants, TROPICAL dry forests

Abstract

Background: This study sought to investigate the occurrence of taxonomic patterns between semi-arid and humid regions, verifying how the taxonomic affiliation can influence the selection of plants for medicinal purposes and act as a selection criterion. Methods: The relationship between the taxonomic affiliation and the selection of medicinal plants with four different communities was analyzed; two of them associated with a seasonally dry tropical forest and the other two associated with a tropical rain forest. We used the Utilitarian Equivalence Model (transposing the concept of ecological equivalence, proposed by Odum, for ethnobotany) to test the hypothesis that species that have the same taxonomic affiliation tend to have the same therapeutic applications in different environments (utilitarian equivalence). In addition, we used the Utilitarian Redundancy Model to verify whether, within the same medical system, plants of the same taxonomic affiliation tend to be redundant (treating the same diseases). Results: We found that a pair of plants of the same genus were 9.25 times more likely to be equivalent than a different genus pair (OR = 9.25, CI [1.68-51.02], p < 0.05). When we analyzed the species used by the same population, the chances of a pair having similar therapeutic uses (utilitarian redundancy) increased when they were species of the same family (OR = 1.94, CI [1.06-3.53]; p < 0.05). Conclusions: These findings confirm the hypothesis that there is an influence of taxonomic affiliation, in terms of genera and family, on the selection of medicinal plants in semi-arid and humid areas in Northeast Brazil. In addition, our Utilitarian Equivalence Model can be an important tool in the search for more common selection criteria, in order to identify the shared characteristics among the equivalent pairs and consequently the main types of perceptions or stimuli that led to the inclusion of such species in local pharmacopoeias. [ABSTRACT FROM AUTHOR]

Published

2020

46. Landscape-scale patterns and drivers of novel mammal communities in a human-modified protected area.

Author

Alves, Tainá S., Alvarado, Fredy, Arroyo-Rodríguez, Víctor, and Santos, Bráulio A.

Subjects

MAMMAL communities, PROTECTED areas, MAMMAL conservation, BIOTIC communities, MAMMAL diversity, TROPICAL dry forests

Abstract

Context: The role of protected areas as biodiversity repositories has become increasingly important in face of increased deforestation. By adding free-living exotic mammals, removing forest-dependent native ones, isolating forest patches from large protected areas and reducing landscape forest cover, human activities may drive mammal communities towards regional biotic homogenization. Objectives: We assessed how landscape forest cover and proximity to the largest and best-preserved area of the Catimbau National Park—one of the largest protected areas of the Brazilian Caatinga—affect α- and β-diversity of medium- and large-sized mammals, considering native and exotic species. Methods: Using camera traps (total effort of 2340 cameras/day), we obtained 823 records of 15 species (8 natives and 7 exotics) in 18 landscapes of 1-km radius. We estimated diversity metrics within and among landscapes and used generalized linear models to assess the effect of forest loss and isolation on diversity metrics. Results: As expected, forest loss decreased α-diversity of native species and increased the diversity and relative abundance of exotics. However, proximity to the preserved area showed weak effect on α-diversity, suggesting that this area does not work regionally as source for natives neither as ecological trap for exotics. Supporting the biotic homogenization hypothesis, β-diversity of natives decreased and β-diversity of exotics increased in more deforested landscapes. Yet, species composition was weakly related to forest cover and isolation. Conclusions: Our findings demonstrate that deforestation jeopardizes native species, favors exotics, and drives mammal communities towards biotic homogenization. Protected areas should be properly implemented to safeguard mammal diversity. [ABSTRACT FROM AUTHOR]

Published

2020

47. Song variation in the Caatinga suboscine Silvery-cheeked Antshrike (Sakesphorus cristatus) suggests latitude and São Francisco River as drivers of geographic variation.

Author

Capelli, Daniel, Batalha-Filho, Henrique, and Japyassú, Hilton Ferreira

Subjects

BIRDSONGS, TROPICAL dry forests, ENDEMIC birds, BIRD populations, SOCIAL adjustment, SONGS

Abstract

Copyright of Journal of Ornithology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

48. Diversity of dung beetles in three vegetation physiognomies of the Caatinga dry forest.

Author

Barretto, Julliana, Salomão, Renato Portela, and Iannuzzi, Luciana

Subjects

DUNG beetles, TROPICAL dry forests, PHYSIOGNOMY, SPECIES diversity, BODY size

Abstract

Caatinga is the largest continuous Seasonally Tropical Dry Forests (STDF) in America, with a wide variety of vegetation physiognomies. Understanding how biodiversity is structured in each ecosystem allows to define what set of species and species attributes thrives under different vegetation physiognomies. We compared dung beetle diversity and functional groups in three physiognomies (Caatinga sensu strictu, Grota and Cerrado) within a mosaic of Caatinga during the rainy season. A total of 1073 dung beetles from 14 species were collected. Cerrado had a higher species richness than the other physiognomies. Alpha, gamma and beta diversities were statistically higher in Cerrado and Grota, while Caatinga sensu strictu was the least diverse physiognomy. Dung beetle expected species richness, abundance, and body size were similar among the physiognomies. In Cerrado and s. strictu diet-generalist dung beetles had a clearly higher species richness and abundance than the coprophagous and necrophagous dung beetles. This may indicate that diet generalists may be more successful than diet specific species in this ecosystem. Our study provides cues supporting that each physiognomy harbors distinct dung beetle communities, which this may be related to different microhabitat conditions and food availability. [ABSTRACT FROM AUTHOR]

Published

2020

49. Can fine-scale habitats of limestone outcrops be considered litho-refugia for dry forest tree lineages?

Author

de Aguiar-Campos, Natalia, Maia, Vinícius Andrade, da Silva, Wilder Bento, de Souza, Cléber Rodrigo, and dos Santos, Rubens Manoel

Subjects

TROPICAL dry forests, LIMESTONE, SOIL texture, HABITATS, SOIL fertility, DEMOGRAPHIC surveys

Abstract

In the neotropical region, seasonally dry tropical forests (SDTF) are commonly associated with scatterly distributed limestone outcrops, known for harbouring high numbers of endemic species and genera. In the context of lacking knowledge on fine-scale vegetation and environmental heterogeneity of these geoecosystems and having a limestone outcrop in eastern Brazil as a case study, we address the question: how important are limestone outcrops for SDTF tree community composition, structure, function and evolution? We distinguished five habitats related to position and distance to the outcrop, and within each of 25 sampled plots (five per habitat), we identified and measured the diameter of all living tree individuals and collected soil samples for chemical and textural analyses. We investigated taxonomic and phylogenetic substitution across the habitats and fitted linear models to test the effects of habitat type, soil fertility and texture on taxonomic/structural, functional and phylogenetic parameters. We found striking taxonomic and phylogenetic differentiation among the habitats, especially related to recent diversification, with soil fertility and texture largely accounting for variations in all analysed parameters. Given the predominant roles of vicariance and in situ diversification believed to have given rise to the current patterns of endemism and diversity of eastern Brazil SDTF, we argue that the conditions presented by limestone outcrops, including aridity and high fertility, may have favoured the persistence of SDTF lineages during the Quaternary environmental changes, highlighting their role as litho-refugia. In order to complete this biogeographic puzzle, we encourage other fine-scale assessments of outcrop-associated SDTF from the phylogenetic viewpoint. [ABSTRACT FROM AUTHOR]

Published

2020

50. Medicinal plants and animals of an important seasonal dry forest in Brazil.

Author

Albuquerque, Ulysses Paulino, de Brito, Alanne Lucena, do Nascimento, André Luiz Borba, de Oliveira, Antonio Fernando Morais, Quixabeira, Carla Mirele Tabósa, de Queiroz Dias, Diógenes, Lira, Eduardo Carvalho, Silva, Flávia Santos, de Araújo Delmondes, Gyllyandeson, Coutinho, Henrique Douglas Melo, Barbosa, Mariana Oliveira, Landell, Melissa Fontes, da Nóbrega Alves, Rômulo Romeu, and Ferreira Júnior, Washington Soares

Subjects

TROPICAL dry forests, MEDICINAL plants, READING comprehension, NATURAL products, ANIMALS

Abstract

Research performed in recent years indicates that efforts are still needed to understand the advances in the Caatinga, an important dry seasonal forest, and identify its potential for bioprospecting. These efforts are also important for pinpointing the challenges that should be addressed in future research focused on identifying new candidates for pharmacological studies in this complex region. Thus, in this review, we present the main advances of studies on plants and medicinal animals in the Caatinga region and their implications for ethnopharmacology, and we then discuss future challenges to promote the search for candidates with pharmacological potential. Based on an exploration of the available literature, we performed a critical reading of the available evidence to provide a good scenario on the studies in the region. We find that despite the large number of studies available, it is necessary to organize efforts to fill gaps in different areas of knowledge and optimize the search for new natural products. [ABSTRACT FROM AUTHOR]

Published

2020