Your search keyword '"Isa Marques"' showing total 11 results

1. Changes in leaf area index by tropical forest transformation to plantations increase below-canopy surface temperatures

Author

Pallavi, Alexander Röll, Isa Marques, Delima Nur Ramadhani, Alejandra Valdes-Uribe, Hendrayanto Hendrayanto, and Dirk Hölscher

Subjects

LAI, Land-use, Hijab, Cap, Surface warming, Ecology, QH540-549.5

Abstract

Climate change affects life in tropical landscapes by increasing temperatures, among other impacts. In addition, land transformation from forest to other land cover types typically increases temperatures of surfaces exposed to direct solar radiation. In rural areas, however, many organisms including humans live sheltered below canopies, but little is known about below-canopy surface temperatures. We assessed canopy leaf area index (LAI) and below-canopy surface temperatures in a landscape of rural lowland Sumatra, Indonesia. In this region, land-use trajectories in the past decades led from forest to monocultural plantations. We found that LAI varied more than 10-fold, with the highest values observed in forest and low values in rubber and oil palm plantations. Below-canopy surface temperatures increased significantly with decreasing LAI. A decrease in LAI by one unit (m2 leaf area per m2 ground area) increased ground surface temperature by 0.95 °C (confidence interval: 1.07–0.83 °C) around noon. Likewise, the temperatures measured on peoples’ cap or hijab surfaces under the canopy was strongly affected. For a light-brown hijab, the average noon surface temperature increased by 4.0 °C from forest to oil palm. Thus, in addition to climate warming, land transformation and associated declines in canopy LAI significantly increased below-canopy surface temperatures. Strategies for mitigating such potentially adverse temperature effects may include the integration of more and densely foliated trees into landscapes.

Published

2024

2. UAV-based thermography reveals spatial and temporal variability of evapotranspiration from a tropical rainforest

Author

Medha Bulusu, Florian Ellsäßer, Christian Stiegler, Joyson Ahongshangbam, Isa Marques, Hendrayanto Hendrayanto, Alexander Röll, and Dirk Hölscher

Subjects

close-range sensing, DATTUTDUT, heterogeneity, land surface temperature, seasonality, site conditions, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

Evapotranspiration (ET) from tropical forests plays a significant role in regulating the climate system. Forests are diverse ecosystems, encompass heterogeneous site conditions and experience seasonal fluctuations of rainfall. Our objectives were to quantify ET from a tropical rainforest using high-resolution thermal images and a simple modeling framework. In lowland Sumatra, thermal infrared (TIR) images were taken from an uncrewed aerial vehicle (UAV) of upland and riparian sites during both dry and wet seasons. We predicted ET from land surface temperature data retrieved from the TIR images by applying the DATTUTDUT energy balance model. We further compared the ET estimates to ground-based sap flux measurements for selected trees and assessed the plot-level spatial and temporal variability of ET across sites and seasons. Average ET across sites and seasons was 0.48 mm h–1, which is comparable to ET from a nearby commercial oil palm plantation where this method has been validated against eddy covariance measurements. For given trees, a positive correlation was found between UAV-based ET and tree transpiration derived from ground-based sap flux measurements, thereby corroborating the observed spatial patterns. Evapotranspiration at upland sites was 11% higher than at riparian sites across all seasons. The heterogeneity of ET was lower at upland sites than at riparian sites, and increased from the dry season to the wet season. This seasonally enhanced ET variability can be an effect of local site conditions including partial flooding and diverse responses of tree species to moisture conditions. These results improve our understanding of forest-water interactions in tropical forests and can aid the further development of vegetation-atmosphere models. Further, we found that UAV-based thermography using a simple, energy balance modeling scheme is a promising method for ET assessments of natural (forest) ecosystems, notably in data scarce regions of the world.

Published

2023

3. Biomass Allocation and Leaf Morphology of Saplings Grown under Various Conditions of Light Availability and Competition Types

Author

Ieva Bebre, Isa Marques, and Peter Annighöfer

Subjects

controlled experiment, pots, specific leaf area, quantile regression, Botany, QK1-989

Abstract

Plant growth is almost always limited by light availability and competition. However, plants are generally plastic and can change their morphology and biomass allocation to optimize growth under suboptimal conditions. We set up a controlled pot experiment with three light availability levels (10%, 20%, and 50%) to study the effect of light and competition on the biomass allocation and leaf morphology in monospecific and mixed pots of recently planted European beech (Fagus sylvatica L.), Norway spruce (Picea abies (L.) Karst.), and Douglas fir (Pseudotsuga menziesii (Mirb.) Franco) saplings using a quantile regression model. Specific leaf area (SLA) showed the strongest reaction and increased with decreasing light availability. Woody aboveground mass fraction (AMF) increased with decreasing light availability, but the effect of light on biomass allocation was less pronounced than on SLA. The SLA, woody AMF, and root mass fraction (RMF) of the two conifer species and European beech varied greatly, with European beech having a higher SLA and RMF than the two conifer species. The associated effect of plant size on biomass allocation was small, and the strength of the association was not meaningful on a practical level. The competitor’s effect on biomass allocation was minor overall and only present for some species, suggesting that species’ functional dissimilarity does not greatly affect allocational patterns in early tree development stages.

Published

2022

4. Mitigating spatial confounding by explicitly correlating Gaussian random fields

Author

Isa Marques, Thomas Kneib, and Nadja Klein

Subjects

Statistics and Probability, 330 Wirtschaft, Ecological Modeling, Bayesian inference, ddc:330, 510 Mathematik, ddc:510, stochastic partial differential equation, penalized complexity prior, spatial statistics

Abstract

Spatial models are used in a variety of research areas, such as environmental sciences, epidemiology, or physics. A common phenomenon in such spatial regression models is spatial confounding. This phenomenon is observed when spatially indexed covariates modeling the mean of the response are correlated with a spatial random effect included in the model, for example, as a proxy of unobserved spatial confounders. As a result, estimates for regression coefficients of the covariates can be severely biased and interpretation of these is no longer valid. Recent literature has shown that typical solutions for reducing spatial confounding can lead to misleading and counterintuitive results. In this article, we develop a computationally efficient spatial model that explicitly correlates a Gaussian random field for the covariate of interest with the Gaussian random field in the main model equation and integrates novel prior structures to reduce spatial confounding. Starting from the univariate case, we extend our prior structure also to the case of multiple spatially confounded covariates. In simulation studies, we show that our novel model flexibly detects and reduces spatial confounding in spatial datasets, and it performs better than typically used methods such as restricted spatial regression. These results are promising for any applied researcher who wishes to interpret covariate effects in spatial regression models. As a real data illustration, we study the effect of elevation and temperature on the mean of monthly precipitation in Germany. Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Published

2023

5. A non-stationary model for spatially dependent circular response data based on wrapped Gaussian processes

Author

Isa Marques, Thomas Kneib, and Nadja Klein

Subjects

Statistics and Probability, Computational Theory and Mathematics, Statistics, Probability and Uncertainty, Theoretical Computer Science

Abstract

Circular data can be found across many areas of science, for instance meteorology (e.g., wind directions), ecology (e.g., animal movement directions), or medicine (e.g., seasonality in disease onset). The special nature of these data means that conventional methods for non-periodic data are no longer valid. In this paper, we consider wrapped Gaussian processes and introduce a spatial model for circular data that allow for non-stationarity in the mean and the covariance structure of Gaussian random fields. We use the empirical equivalence between Gaussian random fields and Gaussian Markov random fields which allows us to considerably reduce computational complexity by exploiting the sparseness of the precision matrix of the associated Gaussian Markov random field. Furthermore, we develop tunable priors, inspired by the penalized complexity prior framework, that shrink the model toward a less flexible base model with stationary mean and covariance function. Posterior estimation is done via Markov chain Monte Carlo simulation. The performance of the model is evaluated in a simulation study. Finally, the model is applied to analyzing wind directions in Germany.

Published

2022

6. Biomass Allocation and Leaf Morphology of Saplings Grown under Various Conditions of Light Availability and Competition Types

Author

Ieva Bebre, Isa Marques, Peter Annighöfer, and Professur für Wald- und Agroforstsysteme

Subjects

pots, controlled experiment, quantile regression, Ecology, QK1-989, Botany, ddc:630, specific leaf area, Plant Science, Ecology, Evolution, Behavior and Systematics, ddc

Abstract

Plant growth is almost always limited by light availability and competition. However, plants are generally plastic and can change their morphology and biomass allocation to optimize growth under suboptimal conditions. We set up a controlled pot experiment with three light availability levels (10%, 20%, and 50%) to study the effect of light and competition on the biomass allocation and leaf morphology in monospecific and mixed pots of recently planted European beech (Fagus sylvatica L.), Norway spruce (Picea abies (L.) Karst.), and Douglas fir (Pseudotsuga menziesii (Mirb.) Franco) saplings using a quantile regression model. Specific leaf area (SLA) showed the strongest reaction and increased with decreasing light availability. Woody aboveground mass fraction (AMF) increased with decreasing light availability, but the effect of light on biomass allocation was less pronounced than on SLA. The SLA, woody AMF, and root mass fraction (RMF) of the two conifer species and European beech varied greatly, with European beech having a higher SLA and RMF than the two conifer species. The associated effect of plant size on biomass allocation was small, and the strength of the association was not meaningful on a practical level. The competitor’s effect on biomass allocation was minor overall and only present for some species, suggesting that species’ functional dissimilarity does not greatly affect allocational patterns in early tree development stages.

Published

2021

7. Discussion on 'Spatial+: A novel approach to spatial confounding' by Emiko Dupont, Simon N. Wood, and Nicole H. Augustin

Author

Isa Marques and Thomas Kneib

Subjects

Statistics and Probability, Models, Statistical, General Immunology and Microbiology, Applied Mathematics, General Medicine, General Agricultural and Biological Sciences, Wood, General Biochemistry, Genetics and Molecular Biology, Psychomotor Performance

Published

2021

8. Meio Ambiente em Foco - Volume 7

Author

Fabiane dos Santos Toledo, Osania Emerenciano Ferreira, Nara Isa Marques de Paula, Rosa Betânia Rodrigues de Castro, Samira Furtado de Queiroz, Marília Assunção Mendonça, Patrícia Müller, Carlos Henrique de Castro Freitas, João Paulo Borges Pedro, Larissa de Morais Cavalcante, Alexandro Dias Martins Vasconcelos, Ikallo George Nunes Henriques, Natali Ellen Maciel César, Rosalvo Maciel Guimarães Neto, Luana Martins dos Santos, Stéphano Diniz Ridolfi, Luiz Alfredo Possato, Lucas Santos Santana, Oclizio Medeiros das Chagas Silva, Josiane Maria da Silva, Ramon Pittizer Moreira, Djavan Valentim da Paixão Evangelista, Marcos Vinícius de Carvalho Martins, Gabrielle de Araújo Ribeiro, José Dantas Neto, Ronaldo Alberto Pollo, Zacarias Xavier de Barros, Bruna Soares Xavier de Barros, Luiza Magalhães Figueira, Goetz Schroth, Waldinei Rosa Monteiro, Nelson Poli Teixeira Filho, Anderson Corrêa Pinheiro, Luilda Melo Rocha, Maycon Brenner Pereira Bello, Ronald Matheus Lobo Pereira, Viviane de Jesus Ribeiro Carvalho, Maria Luiza Machado Santos, Gilmar dos Santos Marques, Eliane Aparecida Antunes Fagundes, Luciane Ribeiro Aporta, Crisnaiara Cândido, Gesinaldo Ataíde Cândido, Rooney Augusto Vasconcelos Barros, Artemis de Araujo Soares, Cristiano Gomes do Nascimento, Sandra Regina Gregório, Renner Douglas Gonçalves Dutra, Vanderlei Antonio Stefanuto, Patricia Ribeiro Maia, Francisco Plácido Magalhães Oliveira, Diocléa Almeida Seabra Silva, Suzana Mourão Gomes, Antonio Danilo Bentes Meninea, Ana Cristina Tavares Nunes, Valéria Pereira Bastos, Carla de Mello dos Santos Alcantara, Denival de Lira Gonçalves, Valdemar Sjlender, Larisse Livramento dos Santos, Roberta Enir Faria Neves de Lima, Ronald Rosa de Lima, and Cláudio Nahum Alves

Published

2019

9. Caracterização do comportamento reprodutivo do cavalo-marinho de focinho comprido (Hippocampus guttulatus, Cuvier 1928)

Author

Fialho, Ana Isa Marques, Andrade, José Pedro, and Palma, Jorge

Subjects

Cavalo marinho, Ria Formosa, Reprodução, Hippocampus guttulatus

Abstract

Dissertação de Mestrado, Biologia Marinha, Especialização em Pescas e Aquacultura, Faculdade de Ciências e Tecnologia, Universidade do Algarve, 2009 Os cavalos marinhos estão incluídos no género Hippocampus, o qual é um dos muitos pertencentes á família Syngnathidae. Entre as diversas características que os distinguem dos outros géneros, estes apresentam a particularidade de ser o macho que desempenha os cuidados parentais, incluindo o período de gestação. Esta característica tem levado regularmente a estudos acerca do comportamento reprodutivo de algumas espécies pertencentes ao género, e do papel de cada um dos sexos na reprodução. Na sequência de estudos anteriores foi desenvolvido uma experiência acerca do comportamento reprodutivo do cavalo marinho de focinho comprido, Hippocampus guttulatus, uma das duas espécies de cavalo marinho existentes na Ria Formosa. Numa primeira fase, este estudo comportamental foi desenvolvido de forma a caracterizar o comportamento de corte desta espécie, assim como os papéis desempenhados por cada um dos sexos no processo reprodutivo. Seguidamente, foi feita a delimitação temporal das várias etapas que constituem o ciclo reprodutivo desta espécie, analisou-se a sua estratégia reprodutiva e o potencial reprodutivo de cada um dos sexos. O conhecimento destes factores será uma ferramenta útil no desenvolvimento de um protocolo adequado de cultivo e manutenção, em cativeiro. H. guttulatus apresenta papéis sexuais convencionais, nos quais, são os machos que competem pelo acesso à parceira e consequentemente, cabe às fêmeas a selecção do parceiro. Em situações onde a proporção sexual de machos disponíveis é superior à de fêmeas, o período total de corte tende a diminuir, por diminuição do tempo de inactividade entre cortes, pelo que a competição induz um aceleramento no processo reprodutivo e, quer o período de corte, como todas as outras etapas que constituem o ciclo reprodutivo desta espécie, parecem estar condicionados pelas alterações da temperatura verificadas. O parto é um processo descontínuo e o número máximo de descendentes atingido por gestação foi de 678 juvenis. Os intervalos de latência entre acasalamentos consecutivos apresentam uma maior duração para os machos, pelo que, as fêmeas em situações onde não há limitação de machos disponíveis tendem a acasalar com outro macho, antes da conclusão do período de gestação do macho inicial. Desta forma, a espécie H. guttulatus não revelou monogamia estrita para uma época reprodutiva, o que provocou uma desigualdade no potencial reprodutivo de machos e fêmeas, ocorrendo uma prevalência das fêmeas em relação aos machos no número total de descendentes produzidos por época reprodutiva. Seahorses are included in the genus Hippocampus, which is one of many included in the family Syngnathidae. Among the several features that distinguish them from other genera, they have the distinction of being the male performs parental care, including the period of gestation. This feature has led to regular studies on the reproductive behavior of some species of the genus and about the role of each sex for reproduction. Following previous studies was conducted an experiment on the reproductive behavior of the long snouted seahorse, Hippocampus guttulatus, one of two species of seahorse existing in the Ria Formosa. At first this behavioral study was carried out to characterize the courtship behavior of this species as well as the roles played by each sex in the reproductive process. It was subsequently made time delimitation of the various steps that constitute the reproductive cycle of this specie; we analyzed its reproductive strategy and reproductive potential of each sex. The knowledge of these factors will be a useful tool in the development of a protocol suitable for the cultivation and maintenance in captivity. H. guttulatus has conventional sex roles, in which males are competing for access to the partner and therefore it is up to the selection of the female partner. In situations where the sex ratio of available males is higher than in females, the total courtship, tends to decrease by decreasing downtime between courtship behavior interactions, so that competition leads to an acceleration in the reproductive process and shortened the courtship, like all the other steps that constitute the reproductive cycle of this species seem to be driven by changes in temperature observed. The birth of juveniles is a batch process and the maximum number of juveniles by pregnancy was 678. The intervals of latency between consecutive matings have a longer duration for the males, so that the females in situations where there is no limitation of available males tend to mate with another male before the end of the gestation period of the initial male. Thus, the H. guttulatus revealed no strict monogamy to a reproductive season and has led to inequality in reproductive potential of males and females, occurring a prevalence of females compared to males in the total number of offspring produced by reproductive season.

Published

2009

10. CASTRO, E. M. de Melo e. Livro de releituras e poiética contemporânea. 1. ed. Belo Horizonte:Veredas & Cenários, 2008. 256p.

Author

Oliveira, Isa Marques, primary

Published

2013

11. A poética de Arnaldo Antunes na Cultura da Convergência

Author

Oliveira, Isa Marques, primary

Published

2013