The erosion of biodiversity and biomass in the Atlantic Forest biodiversity hotspot

Lima, Renato A. F. de; Oliveira, Alexandre Adalardo de; Pitta, Gregory R.; Gasper, André Luís de; Vibrans, Alexander Christian; Chave, Jérôme; Steege, Hans ter; Prado, Paulo Inácio

doi:10.1038/s41467-020-20217-w

Cited by 126 publications

(70 citation statements)

References 83 publications

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“…The estimates of more than 50% of all wild life species were lost due to defaunation in last 40 years of Holocene era [100]. The surprising example is from year 2016 contributed by 68% species defaunation in terms of disappearance and reduced abundance compared to even higher species loss of 70% from South America [101]. Regarding this fast defaunation in current era the global gathering of 15000 scientists during 2017 called for Causes and Reasons of Insect Decline and the Way Forward DOI: http://dx.doi.org/10.5772/intechopen.98786 a second warning to humanity for development and implementation of stringent policies to mitigate the Defaunation and exploitation of the natural reservoirs to ensure the safeguarding of remained threatened species.…”

Section: Defaunationmentioning

confidence: 99%

Causes and Reasons of Insect Decline and the Way Forward

Dar¹,

Ansari²,

Naggar³

et al. 2022

Global Decline of Insects

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There are lot of reasons and causes of insect decline. The main causes of insect decline is attributed to habitat destruction, land use changes, deforestation, intensive agriculture, urbanization, pollution, climate change, introduction of invasive insect species, application of pesticides, mass trapping of insects using pheromones and light traps, pathological problems on various insects, and introduction of exotic honey bees in new areas that compete with the native bees for resource portioning and other management techniques for pest management, and even not leaving any pest residue for predators and parasitoids for their survival. The use of chemical insecticides against target or non-target organisms is major cause for insect decline. The diseases and decline of the important pollinators is still a mistry for colony collapse disorder. To overcome the cause of insect decline, various conservation techniques to be adopted and augmentation of artificial nesting and feeding structures, use of green pesticides, maintaining the proper pest defender ratio (P:D), policies and reaching to political audience at global level and other factors already discussed in the chapter may be helpful for mitigating the insect decline and especially for the pollinators, a key insect for life.

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Section: Defaunationmentioning

confidence: 99%

Causes and Reasons of Insect Decline and the Way Forward

Dar¹,

Ansari²,

Naggar³

et al. 2022

Global Decline of Insects

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“…We retrieved abundance data of 1016 tree species from 574 community surveys (totaling 961,184 individuals) from the Neotropical Tree Community database (TreeCo; http://labtrop.ib.usp.br/doku.php?id= projetos:treeco:start) using the methods described in Lima et al (2015) and de Lima et al (2020). For this specific study, we selected the surveys including trees from the dominant/adult stratum of the vegetation, which were defined to include trees with diameter at breast height (DBH) C 5 cm for closed canopy forests and DBH C 3 cm or DGH (diameter at ground height) C 5 cm for open canopy forests and savannas.…”

Section: Species Occurrencesmentioning

confidence: 99%

“…To study the possible abiotic effects on species cooccurrences patterns, we obtained climate, S1, de Lima et al 2020). Following preliminary analyses, we selected a set of uncorrelated variables to avoid collinearity in the model fitting and excluded those variables that were highly correlated (Pearson'r [|0.5|) with other variables (e.g., altitude).…”

Section: Environmental Covariates and Spatial Structurementioning

confidence: 99%

“…In addition, we included the geographic distribution (local/regional endemic, central/southern/northern/western South America, Neotropical, Pantropical, exotic). The details on obtaining species' characteristics can be found in de Lima et al (2020). Based on the assumption that closely related species tend to have similar trait values, we completed the trait matrix with genus level averages in cases of species missing values of seed length, wood density, and dispersal syndrome.…”

Section: Species Characteristicsmentioning

confidence: 99%

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Co-occurrences of tropical trees in eastern South America: disentangling abiotic and biotic forces

et al. 2021

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Species co-occurrences in local communities can arise independent or dependent on species’ niches. However, the role of niche-dependent processes has not been thoroughly deciphered when generalized to biogeographical scales, probably due to combined shortcomings of data and methodology. Here, we explored the influence of environmental filtering and limiting similarity, as well as biogeographical processes that relate to the assembly of species’ communities and co-occurrences. We modelled jointly the occurrences and co-occurrences of 1016 tropical tree species with abundance data from inventories of 574 localities in eastern South America. We estimated species co-occurrences as raw and residual associations with models that excluded and included the environmental effects on the species’ co-occurrences, respectively. Raw associations indicate co-occurrence of species, whereas residual associations indicate co-occurrence of species after accounting for shared responses to environment. Generally, the influence of environmental filtering exceeded that of limiting similarity in shaping species’ co-occurrences. The number of raw associations was generally higher than that of the residual associations due to the shared responses of tree species to the environmental covariates. Contrary to what was expected from assuming limiting similarity, phylogenetic relatedness or functional similarity did not limit tree co-occurrences. The proportions of positive and negative residual associations varied greatly across the study area, and we found a significant tendency of some biogeographical regions having higher proportions of negative associations between them, suggesting that large-scale biogeographical processes limit the establishment of trees and consequently their co-occurrences.

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“…Arboviral outbreaks periodically occur, causing widespread morbidity and mortality in human populations and other vertebrates [ 4 , 5 , 6 ]. Accumulated deforestation is a major driver of arbovirus spillover [ 7 , 8 , 9 ]. Human land-use activities bring humans into close contact with the sylvatic vectors, which may lead to spillover events in both humans and domestic animals [ 10 , 11 ].…”

Section: Introductionmentioning

confidence: 99%

Dengue-2 and Guadeloupe Mosquito Virus RNA Detected in Aedes (Stegomyia) spp. Collected in a Vehicle Impound Yard in Santo André, SP, Brazil

Rangel

Oliveira

Cabral

et al. 2021

Insects

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In 2018–2019, we conducted mosquito collections in a municipal vehicle impound yard, which is 10 km from the Serra do Mar Environmental Protection Area in Santo André, SP, Brazil. Our aim is to study arboviruses in the impound yard, to understand the transmission of arboviruses in an urban environment in Brazil. We captured the mosquitoes using human-landing catches and processed them for arbovirus detection by conventional and quantitative RT-PCR assays. We captured two mosquito species, Aedes aegypti (73 total specimens; 18 females and 55 males) and Ae. albopictus (34 specimens; 27 females and 7 males). The minimum infection rate for DENV-2 was 11.5 per 1000 (CI95%: 1–33.9). The detection of DENV-2 RNA in an Ae. albopictus female suggests that this virus might occur in high infection rates in the sampled mosquito population and is endemic in the urban areas of Santo André. In addition, Guadeloupe mosquito virus RNA was detected in an Ae. aegypti female. To our knowledge, this was the first detection of the Guadeloupe mosquito virus in Brazil.

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The erosion of biodiversity and biomass in the Atlantic Forest biodiversity hotspot

Cited by 126 publications

References 83 publications

Causes and Reasons of Insect Decline and the Way Forward

Causes and Reasons of Insect Decline and the Way Forward

Co-occurrences of tropical trees in eastern South America: disentangling abiotic and biotic forces

Dengue-2 and Guadeloupe Mosquito Virus RNA Detected in Aedes (Stegomyia) spp. Collected in a Vehicle Impound Yard in Santo André, SP, Brazil

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