Pervasive gaps in Amazonian ecological research.

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

Beta diversity along an elevational gradient at the Pico da Neblina (Brazil): is spider (Arachnida-Araneae) community composition congruent with the Guayana region elevational zonation?

Beta diversity is usually high along elevational gradients. We studied a spider community at the Pico da Neblina (Brazil), an Amazonian mountain which is one of the southern components of the Guayana region. We sampled six elevations and investigated if beta diversity patterns correspond to the elevational division proposed for the region, between lowlands (up to 500 m), uplands (500 m to 1500 m), and highlands (>1500 m). Patterns of dominance increased with elevation along the gradient, especially at the two highest elevations, indicating that changes in composition may be accompanied by changes in species abundance distribution. Beta diversity recorded was very high, but the pattern observed was not in accordance with the elevationaldivision proposed for the region. While the highlands indeed harbored different fauna, the three lowest elevationshad similar species compositions, indicating that the lowlands spider community extends into the uplands zone. Other measures of compositional change, such as similarity indices and species indicator analysis, also support this pattern. Our results, in addition to a revision of the literature, confirm the high diversity and endemism rates of montane spider communities, and we stress the importance of protecting those environments, especially considering the climate crisis.

Lessons from a Community-Based Program to Monitor Forest Vertebrates in the Brazilian Amazon.

A large number of sustainable use reserves recently have been titled in the Brazilian Amazonia. These reserves require public participation in the design and implementation of management and monitoring programs. Species-monitoring programs that engage local stakeholders may be useful for assessing wildlife status over the long term. We collaborated on the development of a participatory program to monitor forest vertebrates in the Piagaçu-Purus Sustainable Development Reserve and to build capacity among the local people. We examined relations between the distance to the nearest human community and sighting rates of each species, and evaluated the program overall. Eighteen wildlife monitors received training in line transect and sign surveys and then conducted surveys along a total of ten transects. Sighting rates of most species in the Piagaçu-Purus Sustainable Development Reserve were higher than those reported in other Amazonian forests. Distance to the human community was not associated with the overall vertebrate sighting rate. Use of the trained monitors was successful in terms of data acquisition and engagement. The involvement of local people promoted discussions about regulation of hunting in the reserve. Implementation of community-based programs to monitor forest wildlife in Amazonian sustainable use reserves may empower local communities and assess the status of wildlife through time.

Empty forest or empty rivers? A century of commercial hunting in Amazonia.

The Amazon basin is the largest and most species-rich tropical forest and river system in the world, playing a pivotal role in global climate regulation and harboring hundreds of traditional and indigenous cultures. It is a matter of intense debate whether the ecosystem is threatened by hunting practices, whereby an "empty forest" loses critical ecological functions. Strikingly, no previous study has examined Amazonian ecosystem resilience through the perspective of the massive 20th century international trade in furs and skins. We present the first historical account of the scale and impacts of this trade and show that whereas aquatic species suffered basin-wide population collapse, terrestrial species did not. We link this differential resilience to the persistence of adequate spatial refuges for terrestrial species, enabling populations to be sustained through source-sink dynamics, contrasting with unremitting hunting pressure on more accessible aquatic habitats. Our findings attest the high vulnerability of aquatic fauna to unregulated hunting, particularly during years of severe drought. We propose that the relative resilience of terrestrial species suggests a marked opportunity for managing, rather than criminalizing, contemporary traditional subsistence hunting in Amazonia, through both the engagement of local people in community-based comanagement programs and science-led conservation governance.

Kinship and social behavior of lowland tapirs (Tapirus terrestris) in a central Amazon landscape.

We tested the hypothesis that tapirs tolerate individuals from adjacent and overlapping home ranges if they are related. We obtained genetic data from fecal samples collected in the Balbina reservoir landscape, central Amazon. Samples were genotyped at 14 microsatellite loci, of which five produced high quality informative genotypes. Based on an analysis of 32 individuals, we inferred a single panmictic population with high levels of heterozygosity. Kinship analysis identified 10 pairs of full siblings or parent-offspring, 10 pairs of half siblings and 25 unrelated pairs. In 10 cases, the related individuals were situated on opposite margins of the reservoir, suggesting that tapirs are capable of crossing the main river, even after damming. The polygamous model was the most likely mating system for Tapirus terrestris. Moran's I index of allele sharing between pairs of individuals geographically close (<3 km) was similar to that observed between individual pairs at larger distances (>3 km). Confirming this result, the related individuals were not geographically closer than unrelated ones (W = 188.5; p = 0.339). Thus, we found no evidence of a preference for being close to relatives and observed a tendency for dispersal. The small importance of relatedness in determining spatial distribution of individuals is unusual in mammals, but not unheard of. Finally, non-invasive sampling allowed efficient access to the genetic data, despite the warm and humid climate of the Amazon, which accelerates DNA degradation.

Unexpected high diversity of galling insects in the Amazonian upper canopy: the savanna out there.

A relatively large number of studies reassert the strong relationship between galling insect diversity and extreme hydric and thermal status in some habitats, and an overall pattern of a greater number of galling species in the understory of scleromorphic vegetation. We compared galling insect diversity in the forest canopy and its relationship with tree richness among upland terra firme, várzea, and igapó floodplains in Amazonia, Brazil. The soils of these forest types have highly different hydric and nutritional status. Overall, we examined the upper layer of 1,091 tree crowns. Galling species richness and abundance were higher in terra firme forests compared to várzea and igapó forests. GLM-ANCOVA models revealed that the number of tree species sampled in each forest type was determinant in the gall-forming insect diversity. The ratio between galling insect richness and number of tree species sampled (GIR/TSS ratio) was higher in the terra firme forest and in seasonally flooded igapó, while the várzea presented the lowest GIR/TSS ratio. In this study, we recorded unprecedented values of galling species diversity and abundance per sampling point. The GIR/TSS ratio from várzea was approximately 2.5 times higher than the highest value of this ratio ever reported in the literature. Based on this fact, we ascertained that várzea and igapó floodplain forests (with lower GIA and GIR), together with the speciose terra firme galling community emerge as the gall diversity apex landscape among all biogeographic regions already investigated. Contrary to expectation, our results also support the "harsh environment hypothesis", and unveil the Amazonian upper canopy as similar to Mediterranean vegetation habitats, hygrothermically stressed environments with leaf temperature at lethal limits and high levels of leaf sclerophylly.

Densidades de aranhas errantes (Ctenidae e Sparassidae, Araneae) em uma floresta fragmentada / x

As aranhas errantes das famílias Ctenidae e Sparassidae são noturnas e podem ser encontradas principalmente no folhiço forrageando em locais próximos umas das outras na região amazônica. A coexistência entre estas aranhas sugere que elas competem por alimento e abrigos e, por serem predadores generalistas, a predação intraguilda também pode limitar a abundância de suas populações. Neste estudo, investigamos os efeitos da fragmentação florestal sobre a densidade de aranhas, cujas populações estão sujeitas ao isolamento e a redução de seus hábitats. Sete fragmentos florestais (ú10 ha) e nove áreas de mata contínua (>1000 ha) foram comparados quanto à densidade das espécies de Ctenidae e Sparassidae, em uma floresta de terra-firme na Amazônia Central. Testes com ANOVA revelaram que os ctenídeos foram mais suscetíveis à fragmentação da floresta por terem suas populações reduzidas nos fragmentos onde, por outro lado, os esparassídeos foram mais abundantes. Portanto, os fragmentos estudados foram considerados ambientes alterados por não serem capazes de manter as populações destas aranhas nos níveis observados na mata contínua. Além disso, a correlação entre a densidade de ctenídeos e esparassídeos foi negativa na área de estudo (Pearson, r = -0,527, n = 16) indicando que é provável, que a competição por recursos e, talvez, a predação intraguilda tenham um papel importante no tamanho destas populações. Porém, um melhor conhecimento a respeito das interações entre as espécies de Ctenidae e Sparassidae (competição interespecífica e predação intraguilda) é fundamental para o entendimento de como a coexistência entre elas pode influenciar na suscetibilidade destas aranhas à fragmentação da floresta.

The wandering spiders of the families Ctenidae and Sparassidae are nocturnal and can be found mainly on the leaf litter, and in sites close to each other in the Amazon. The coexistence of these spiders suggests that they compete for food, shelters and, as a generalist predator, the intraguild predation can also limit the abundance of their populations. In this study, we investigated the forest fragmentation effects on the density of spiders, whose populations are under the influence of isolation and reduction of their habitats. The densities of Ctenidae and Sparassidae species in seven forest fragments (ú10 ha) and nine areas of continuous forest (>1000 ha) in a "terra-firme" (non-flooded) forest of Central Amazon were compared. ANOVA tests revealed that ctenid spiders are more susceptible to the forest fragmentation by having their populations reduced in fragments where, on the other hand, sparassid spiders were more abundant. Therefore, the studied fragments were considered to be disturbed environments since they are not capable of maintaining these spider populations at the same levels as that observed in continuous forest. Besides, the negative correlation between the density of ctenid and sparassid spiders in the study area (Pearson, r = -0,527; n = 16) indicates that, probably the competition for resources and perhaps, the intraguild predation are important factors for the size of these populations. Nevertheless, a better knowledge on the interactions between Ctenidae and Sparassidae species (interspecific competition and intraguild predation) is fundamental to understand how the coexistence between them influences the susceptibility of these spiders to the forest fragmentation.