Your search keyword '"Zuquim G"' showing total 14 results

1. Introducing a map of soil base cation concentration, an ecologically relevant GIS-layer for Amazonian forests

Author

Zuquim, G., Van doninck, J., Chaves, P.P., Quesada, C.A., Ruokolainen, K., and Tuomisto, H.

Published

2023

2. The importance of soils in predicting the future of plant habitat suitability in a tropical forest

Author

Zuquim, G., Costa, F. R. C., Tuomisto, H., Moulatlet, G. M., and Figueiredo, F. O. G.

Published

2020

3. The importance of soils in predicting the future of plant habitat suitability in a tropical forest

Author

Zuquim, G., primary, Costa, F. R. C., additional, Tuomisto, H., additional, Moulatlet, G. M., additional, and Figueiredo, F. O. G., additional

Published

2019

4. River Network Rearrangements in Amazonia Shake Biogeography and Civil Security

Author

Ruokolainen, Kalle, primary, Massaine Moulatlet, G., additional, Zuquim, G., additional, Hoorn, C., additional, and Tuomisto, H., additional

Published

2018

5. FERNS AND LYCOPHYTES OF CUNIÃ ECOLOGICAL STATION, SOUTH-WESTERN AMAZONIA, BRAZIL.

Author

SAMPAIO, A. F., ANDRADE, R. T. G., ZUQUIM, G., CUNHA, M. F. M., DE OLIVEIRA, A. EUGÊNIO, CABRAL, G. SAMPAIO, DE MOURA, O. SILVA, PANSINI, S., and MANZATTO, A. G.

Subjects

FERNS, RIPARIAN areas, LYCOPHYTES, PUBLIC records, PTERIDACEAE, SELAGINELLA

Abstract

An inventory was prepared of ferns and lycophytes at Cuniã Ecological Station, South-Western Amazonia, Brazil, between 2010 and 2015, and 54 species were recorded. Lycophytes were represented by the families Selaginellaceae (two species) and Lycopodiaceae (one species), genera Selaginella and Phlegmariurus. Fifteen families of ferns were found, with most representatives from Hymenophyllaceae (11 species), Pteridaceae (nine species) and Polypodiaceae (seven species). Twenty five genera were identified; the most species rich were Trichomanes (seven species), Adiantum (six species), Asplenium, Lindsaea and Microgramma (four species each). Seven species or subspecies are new records for the state of Rondônia: Elaphoglossum obovatum, Lindsaea lancea var. remota, Oleandra articulata, Cochlidium linearifolium, Microgramma reptans, Adiantum tuomistoanum and Meniscium arborescens. Concerning life habit, 27 terrestrial species were recorded, 23 epiphytic species and four vines. Two terrestrial species were tree ferns. Fifty two percent of the species preferred one type of habitat, 12 species were exclusively found in riparian areas, 10 in terra-firme and six along the trails. The remaining 26 species (48%) were observed in more than one type of habitat. [ABSTRACT FROM AUTHOR]

Published

2019

6. Disentangling the veil line for Brazilian biodiversity: An overview from two long-term research programs reveals huge gaps in ecological data reporting.

Author

Guimaraes AF, de Alagao Querido LC, Rocha T, de Jesus Rodrigues D, Viana PL, de Godoy Bergallo H, Fernandes GW, Toma TSP, Streit H, Overbeck GE, de Souza AQS, Lima AP, da Rosa CA, de Viveiros Grelle CE, Lopes AM, Curcino A, de Paula AS, Andriolo A, Dos Santos Dias A, Santos AT, Bernardes AA, da Silva Oliveira AB, de Barros AAM, E Silva ACBL, da Cruz ACR, de Holanda ASS, Bueno AS, Nunes-Freitas AF, Yves A, da Silva Alencar A, Scabin AB, Manzatto AG, Lima ACS, Pontes ARM, Castro AB, Gomes AM, Banhos A, Rosado BHP, Dos Santos Batista CA, Siqueira CC, Fontana CS, da Rocha CFD, Brocardo CR, da Costa Doria CR, Castilho CV, Pessanha C, Cordeiro CAMM, Cronemberger C, Andretti CB, Cornelius C, Campos C, Borges-Matos C, Barros CF, Keller C, de Oliveira Cavalcante C, de Sales Dambros C, da Silva Machado DN, Tassinari D, Villela DM, Chiaraniv E, de Farias Geisler E, Velez-Martin E, Carvalho-Junior EAR, Drechsler-Santos ER, Lourenco EC, Franklin E, Higashikawa EM, Pezzini F, de Oliveira Roque F, Baccaro FB, Becker FG, Cabeceira FG, do Prado Florencio F, Barbosa FR, Pezzini F, Zuquim G, Ferreira GB, de Vargas GK, Mourao G, Rousseau GX, de Lima HC, Farias HLS, Kaefer IL, Ghizoni IR, da Costa de Noronha J, de Oliveira JL, Santos JRS, Jarenkow JA, de Melo-Junior JCF, Dos Santos JVC, de Oliveira J, de Souza JLP, Baumgratz JFA, de Morais JW, de Melo Silva J, de Gois Silva J, Wingert JM, Menger J, Ferrer J, Dayrell JS, da Silva-Goncalves KC, Torralvo K, da Silva Cruz K, da Silva Sylvestre L, de Andrade Ribas L, Battirola LD, Ramos L, Caires LR, da Silva Carvalho LC, Stegmann LF, Carvalho LN, da Silva Menezes L, Costa LM, Podgaiski LR, Silveira LF, Malabarba LR, Frangipani MA, Tabarelli M, Nascimento MT, Marques MCM, Spies MR, de Oliveira Dos Santos MA, Anaicy M, Vital MJS, Silveira M, Vieira MV, de Moura Araujo MA, de Almeida Silveira MAP, Barros MF, Faitanin MA, Iguatemy M, da Cunha MS, da Silva Murakami MM, Messias MR, Martins MB, Camana M, de Medeiros Correa N, Fonseca NC, Prieto-Benavides OO, Pena Rodrigues PJF, de Andrade PL, Pequeno PACL, Gananca PHS, da Silva Ferreira PP, de Andrade PCR, Azarak PA, de Fraga R, Rabelo RM, de Lima Santos R, Barbosa RI, Dala-Corte RB, Vicente RE, de Oliveira Perdiz R, da Cunha Araujo RP, de Andrade RTG, de Cassia Quitete Portela R, Fadini R, Feitosa RM, Santa-Brigida R, Cerqueira R, Muller SC, Santorelli S, Dos Santos SB, Cechin SZ, Avilla SS, Pansini S, Aragon S, da Silva Figueiredo T, Sobroza TV, de Fatima Ramos Guimaraes T, Dos Santos TF, Emilio T, de Azevedo Amorim T, Izzo T, Sogral T, Dos Santos TG, Vincent TL, de Lima Rocha T, Pillar VD, Mesquita VP, Silva VD, Cyrino VME, Borges-Junior VNT, Layme VMG, Mota WG, Santos WN, Drose W, Silva WR, and Magnusson WE

Subjects

Brazil, Ecology, Environmental Monitoring methods, Biodiversity, Conservation of Natural Resources methods

Abstract

The lack of synthesized information regarding biodiversity is a major problem among researchers, leading to a pervasive cycle where ecologists make field campaigns to collect information that already exists and yet has not been made available for a broader audience. This problem leads to long-lasting effects in public policies such as spending money multiple times to conduct similar studies in the same area. We aim to identify this knowledge gap by synthesizing information available regarding two Brazilian long-term biodiversity programs and the metadata generated by them. Using a unique dataset containing 1904 metadata, we identified patterns of metadata distribution and intensity of research conducted in Brazil, as well as where we should concentrate research efforts in the next decades. We found that the majority of metadata were about vertebrates, followed by plants, invertebrates, and fungi. Caatinga was the biome with least metadata, and that there's still a lack of information regarding all biomes in Brazil, with none of them being sufficiently sampled. We hope that these results will have implications for broader conservation and management guiding, as well as to funding allocation programs., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

7. Seamless Landsat-7 and Landsat-8 data composites covering all Amazonia.

Author

Gupta R, Zuquim G, and Tuomisto H

Abstract

The use of satellite remote sensing has considerably improved scientific understanding of the heterogeneity of Amazonian rainforests. However, the persistent cloud cover and strong Bidirectional Reflectance Distribution Function (BRDF) effects make it difficult to produce up-to-date satellite image composites over the huge extent of Amazonia. Advanced pre-processing and pixel-based compositing over an extended time period are needed to fill the data gaps caused by clouds and to achieve consistency in pixel values across space. Recent studies have found that the multidimensional median, also known as medoid, algorithm is robust to outliers and noise, and thereby provides a useful approach for pixel-based compositing. Here we describe Landsat-7 and Landsat-8 composites covering all Amazonia that were produced using Landsat data from the years 2013-2021 and processed with Google Earth Engine (GEE). These products aggregate reflectance values over a relatively long time, and are, therefore, especially useful for identifying permanent characteristics of the landscape, such as vegetation heterogeneity that is driven by differences in geologically defined edaphic conditions. To make similar compositing possible over other areas and time periods (including shorter time periods for change detection), we make the workflow available in GEE. Visual inspection and comparison with other Landsat products confirmed that the pre-processing workflow was efficient and the composites are seamless and without data gaps, although some artifacts present in the source data remain. Basin-wide Landsat-7 and Landsat-8 composites are expected to facilitate both local and broad-scale ecological and biogeographical studies, species distribution modeling, and conservation planning in Amazonia., (© 2024 The Authors.)

Published

2024

8. The role of environmental gradients and microclimates in structuring communities and functional groups of lizards in a rainforest-savanna transition area.

Author

Souza-Oliveira AF, Zuquim G, Martins LF, Bandeira LN, Diele-Viegas LM, Cavalcante VHGL, Baccaro F, Colli GR, Tuomisto H, and Werneck FP

Subjects

Animals, Grassland, Brazil, Global Warming, Lizards physiology, Microclimate, Rainforest

Abstract

Environmental heterogeneity poses a significant influence on the functional characteristics of species and communities at local scales. Environmental transition zones, such as at the savanna-forest borders, can act as regions of ecological tension when subjected to sharp variations in the microclimate. For ectothermic organisms, such as lizards, environmental temperatures directly influence physiological capabilities, and some species use different thermoregulation strategies that produce varied responses to local climatic conditions, which in turn affect species occurrence and community dynamics. In the context of global warming, these various strategies confer different types of vulnerability as well as risks of extinction. To assess the vulnerability of a species and understand the relationships between environmental variations, thermal tolerance of a species and community structure, lizard communities in forest-savanna transition areas of two national parks in the southwestern Amazon were sampled and their thermal functional traits were characterized. Then, we investigated how community structure and functional thermal variation were shaped by two environmental predictors ( i.e. , microclimates estimated locally and vegetation structure estimated from remote sensing). It was found that the community structure was more strongly predicted by the canopy surface reflectance values obtained via remote sensing than by microclimate variables. Environmental temperatures were not the most important factor affecting the occurrence of species, and the variations in ecothermal traits demonstrated a pattern within the taxonomic hierarchy at the family level. This pattern may indicate a tendency for evolutionary history to indirectly influence these functional features. Considering the estimates of the thermal tolerance range and warming tolerance, thermoconformer lizards are likely to be more vulnerable and at greater risk of extinction due to global warming than thermoregulators. The latter, more associated with open environments, seem to take advantage of their lower vulnerability and occur in both habitat types across the transition, potentially out-competing and further increasing the risk of extinction and vulnerability of forest-adapted thermoconformer lizards in these transitional areas., Competing Interests: The authors declare there are no competing interests., (©2024 Souza-Oliveira et al.)

Published

2024

9. Habitat specialization predicts demographic response and vulnerability of floodplain birds in Amazonia.

Author

Schultz ED, Thom G, Zuquim G, Hickerson MJ, Tuomisto H, and Ribas CC

Subjects

Animals, Brazil, Birds genetics, Rivers, Demography, Ecosystem, Biological Evolution

Abstract

The annual flooding cycle of Amazonian rivers sustains the largest floodplains on Earth, which harbour a unique bird community. Recent studies suggest that habitat specialization drove different patterns of population structure and gene flow in floodplain birds. However, the lack of a direct estimate of habitat affinity prevents a proper test of its effects on population histories. In this work, we used occurrence data, satellite images and genomic data (ultra-conserved elements) from 24 bird species specialized on a variety of seasonally flooded environments to classify habitat affinities and test its influence on evolutionary histories of Amazonian floodplain birds. We demonstrate that birds with higher specialization in river islands and dynamic environments have gone through more recent demographic expansion and currently have less genetic diversity than floodplain generalist birds. Our results indicate that there is an intrinsic relationship between habitat affinity and environmental dynamics, influencing patterns of population structure, demographic history and genetic diversity. Within the floodplains, historical landscape changes have had more severe impacts on island specialists, making them more vulnerable to current and future anthropogenic changes, as those imposed by hydroelectric dams in the Amazon Basin., (© 2023 John Wiley & Sons Ltd.)

Published

2024

10. Edge effects on tree architecture exacerbate biomass loss of fragmented Amazonian forests.

Author

Nunes MH, Vaz MC, Camargo JLC, Laurance WF, de Andrade A, Vicentini A, Laurance S, Raumonen P, Jackson T, Zuquim G, Wu J, Peñuelas J, Chave J, and Maeda EE

Subjects

Biomass, Ecosystem, Wood, Tropical Climate, Trees, Forests

Abstract

Habitat fragmentation could potentially affect tree architecture and allometry. Here, we use ground surveys of terrestrial LiDAR in Central Amazonia to explore the influence of forest edge effects on tree architecture and allometry, as well as forest biomass, 40 years after fragmentation. We find that young trees colonising the forest fragments have thicker branches and architectural traits that optimise for light capture, which result in 50% more woody volume than their counterparts of similar stem size and height in the forest interior. However, we observe a disproportionately lower height in some large trees, leading to a 30% decline in their woody volume. Despite the substantial wood production of colonising trees, the lower height of some large trees has resulted in a net loss of 6.0 Mg ha -1 of aboveground biomass - representing 2.3% of the aboveground biomass of edge forests. Our findings indicate a strong influence of edge effects on tree architecture and allometry, and uncover an overlooked factor that likely exacerbates carbon losses in fragmented forests., (© 2023. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.)

Published

2023

11. Biogeography and environmental preferences of Butia yatay (Mart.) Becc.

Author

Silva GC, Solís Neffa VG, Zuquim G, and Balslev H

Abstract

During the Quaternary, Chaco Phytogeographic Domain (Chaco) flora in subtropical South America experienced temperature and humidity fluctuations, primarily driven by wind dynamics, leading to significant shifts in species distribution. The palm Butia yatay is endemic to the Chaco and thrives in areas characterized by a warm-rainy climate and mostly restricted to sandy soils. To investigate the current geographic distribution of suitable habitat for B. yatay while assessing the significance of soil variables, we employed two distinct algorithms in species distribution modeling (SDM). We also determined whether the distribution of B. yatay has changed since the Pleistocene and whether these changes align with previously proposed Pleistocene refugia. In the present SDMs, we considered two separate sets of predictors, one set with bioclimatic variables only and the other set with bioclimatic topographic and soil variables. Additionally, we reconstructed the historical geographic distribution of suitable habitats using bioclimatic data. Our results suggested that the primary determinants of B. yatay 's current distribution include precipitation and temperature of the driest month and soil cation exchange capacity. Incorporating soil variables affected the estimated size and range of suitable areas. Projections into the past indicated similar suitable habitat distributions during interglacial periods compared with the present. During the Last Glacial Maximum, climatically suitable habitat may have shifted northward, partially overlapping with previously suggested Pleistocene refugia located between the Paraná and Uruguay Rivers. These findings indicate the main factors driving the distribution and ecology of B. yatay and enhance understanding of subtropical flora shifts during the Quaternary. The approach also may prove valuable for other studies within the Chaco., Competing Interests: The authors declare that they have no conflicts of interest to report., (© 2023 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2023

12. Paleoclimatic evolution as the main driver of current genomic diversity in the widespread and polymorphic Neotropical songbird Arremon taciturnus.

Author

Buainain N, Canton R, Zuquim G, Tuomisto H, Hrbek T, Sato H, and Ribas CC

Subjects

Animals, Bayes Theorem, Brazil, Genetic Variation, Genomics, Phylogeny, Phylogeography, Songbirds genetics

Abstract

Several factors have been proposed as drivers of species diversification in the Neotropics, including environmental heterogeneity, the development of drainage systems and historical changes in forest distribution due to climatic oscillations. Here, we investigate which drivers contributed to the evolutionary history and current patterns of diversity of a polymorphic songbird (Arremon taciturnus) that is widely distributed in Amazonian and Atlantic forests as well as in Cerrado gallery and seasonally-dry forests. We use genomic, phenotypic and habitat heterogeneity data coupled with climatic niche modelling. Results suggest the evolutionary history of the species is mainly related to paleoclimatic changes, although changes in the strength of the Amazon river as a barrier to dispersal, current habitat heterogeneity and geographic distance were also relevant. We propose an ancestral distribution in the Guyana Shield, and recent colonization of areas south of the Amazon river at ~380 to 166 kya, and expansion of the distribution to southern Amazonia, Cerrado and the Atlantic Forest. Since then, populations south of the Amazon River have been subjected to cycles of isolation and possibly secondary contact due to climatic changes that affected habitat heterogeneity and population connectivity. Most Amazonian rivers are not associated with long lasting isolation of populations, but some might act as secondary barriers, susceptible to crossing under specific climatic conditions. Morphological variation, while stable in some parts of the distribution, is not a reliable indicator of genetic structure or phylogenetic relationships., (© 2020 John Wiley & Sons Ltd.)

Published

2020

13. Using digital soil maps to infer edaphic affinities of plant species in Amazonia: Problems and prospects.

Author

Moulatlet GM, Zuquim G, Figueiredo FOG, Lehtonen S, Emilio T, Ruokolainen K, and Tuomisto H

Abstract

Amazonia combines semi-continental size with difficult access, so both current ranges of species and their ability to cope with environmental change have to be inferred from sparse field data. Although efficient techniques for modeling species distributions on the basis of a small number of species occurrences exist, their success depends on the availability of relevant environmental data layers. Soil data are important in this context, because soil properties have been found to determine plant occurrence patterns in Amazonian lowlands at all spatial scales. Here we evaluate the potential for this purpose of three digital soil maps that are freely available online: SOTERLAC, HWSD, and SoilGrids. We first tested how well they reflect local soil cation concentration as documented with 1,500 widely distributed soil samples. We found that measured soil cation concentration differed by up to two orders of magnitude between sites mapped into the same soil class. The best map-based predictor of local soil cation concentration was obtained with a regression model combining soil classes from HWSD with cation exchange capacity (CEC) from SoilGrids. Next, we evaluated to what degree the known edaphic affinities of thirteen plant species (as documented with field data from 1,200 of the soil sample sites) can be inferred from the soil maps. The species segregated clearly along the soil cation concentration gradient in the field, but only partially along the model-estimated cation concentration gradient, and hardly at all along the mapped CEC gradient. The main problems reducing the predictive ability of the soil maps were insufficient spatial resolution and/or georeferencing errors combined with thematic inaccuracy and absence of the most relevant edaphic variables. Addressing these problems would provide better models of the edaphic environment for ecological studies in Amazonia.

Published

2017

14. A free-access online key to identify Amazonian ferns.

Author

Zuquim G, Tuomisto H, and Prado J

Abstract

There is urgent need for more data on species distributions in order to improve conservation planning. A crucial but challenging aspect of producing high-quality data is the correct identification of organisms. Traditional printed floras and dichotomous keys are difficult to use for someone not familiar with the technical jargon. In poorly known areas, such as Amazonia, they also become quickly outdated as new species are described or ranges extended. Recently, online tools have allowed developing dynamic, interactive, and accessible keys that make species identification possible for a broader public. In order to facilitate identifying plants collected in field inventories, we developed an internet-based free-access tool to identify Amazonian fern species. We focused on ferns, because they are easy to collect and their edaphic affinities are relatively well known, so they can be used as an indicator group for habitat mapping. Our key includes 302 terrestrial and aquatic entities mainly from lowland Amazonian forests. It is a free-access key, so the user can freely choose which morphological features to use and in which order to assess them. All taxa are richly illustrated, so specimens can be identified by a combination of character choices, visual comparison, and written descriptions. The identification tool was developed in Lucid 3.5 software and it is available at http://keyserver.lucidcentral.org:8080/sandbox/keys.jsp.

Published

2017