Your search keyword '"Carlos A NOBRE"' showing total 249 results

1. Deforestation triggering irreversible transition in Amazon hydrological cycle

Author

Xiyan Xu, Xiaoyan Zhang, William J Riley, Ying Xue, Carlos A Nobre, Thomas E Lovejoy, and Gensuo Jia

Subjects

Amazon forest, decoupling, deforestation, drying, moisture, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

The Amazon is hypothesized to reach an irreversible ‘tipping point’ when deforestation slows the hydrological cycle sufficiently that tropical forest ecosystems cannot be sustained. However, inception of such a tipping point has not been supported by observations and the relevant links between deforestation and atmospheric moisture recycling are poorly understood. Here we show that reduction in evapotranspiration from 20 years of deforestation dried the atmosphere persistently and caused moisture decoupling, i.e. an opposite sign of moisture change between the lower and middle troposphere. Increased deforestation exacerbated the lower troposphere drying and caused it to penetrate deeper into the middle troposphere in the dry and transition seasons over monsoon forests and savannas. Deforestation induced warming-enhanced buoyant updrafts, elevated hot and dry air and thereby reduced downward mixing of water supplies from the tropical Atlantic that normally moisten the Amazon forests. The severe atmospheric desiccation in the southern and eastern Amazon cannot be compensated by enhanced water supplies from the Atlantic Ocean, demonstrating an irreversible transition in Amazon hydrological cycle exacerbated by rapid deforestation. The more recent drying through the seasons over rainforests and during the wet season over the transition zones from rainforests to monsoon forests and savannas, however, suggests a window of opportunity for preventing ecosystem collapse with forest conservation.

Published

2022

2. CO2 emissions from forest degradation in Brazilian Amazon

Author

Talita Oliveira Assis, Ana Paula Dutra de Aguiar, Celso von Randow, Diego Melo de Paula Gomes, Juliana Nunes Kury, Jean Pierre H B Ometto, and Carlos A Nobre

Subjects

fire, selective logging, trajectories, emission model, carbon balance, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Forest degradation is widespread around the world, due to multiple factors such as unsustainable logging, agriculture, invasive species, fire, fuelwood gathering, and livestock grazing. In the Brazilian Amazon forest degradation from August 2006 to July 2016 reached 1,1 869 800 ha. The processes of forest degradation are still poorly understood, being a missing component in anthropogenic CO _2 emission estimates in tropical forests. In this work, we analyzed temporal trajectories of forest degradation from August 2006 to July 2016 in the Brazilian Amazon and assessed their impact on the regional carbon balance. We combined the degradation process with deforestation-related processes (clear-cut deforestation and secondary vegetation dynamics), using the spatially-explicit INPE-EM carbon emission model. The trajectory analysis showed that 13% of the degraded area ended up being cleared and converted in the period and 61% of the total degraded area experienced only one event of degradation throughout the whole period. Net emissions added up to 5.4 GtCO _2 , considering the emissions from forest degradation and deforestation, absorption from degraded forest recovery, and secondary vegetation dynamics. The results show an increase in the contribution of forest degradation to net emissions towards the end of the period, related to the decrease in clear-cut deforestation rates, decoupled from the forest degradation rates. The analysis also indicates that the regeneration of degraded forests absorbed 1.8 GtCO2 from August 2006 and July 2016—a component typically overlooked in the regional carbon balance.

Published

2020

3. Variability of carbon and water fluxes following climate extremes over a tropical forest in southwestern Amazonia.

Author

Marcelo Zeri, Leonardo D A Sá, Antônio O Manzi, Alessandro C Araújo, Renata G Aguiar, Celso von Randow, Gilvan Sampaio, Fernando L Cardoso, and Carlos A Nobre

Subjects

Medicine, Science

Abstract

The carbon and water cycles for a southwestern Amazonian forest site were investigated using the longest time series of fluxes of CO2 and water vapor ever reported for this site. The period from 2004 to 2010 included two severe droughts (2005 and 2010) and a flooding year (2009). The effects of such climate extremes were detected in annual sums of fluxes as well as in other components of the carbon and water cycles, such as gross primary production and water use efficiency. Gap-filling and flux-partitioning were applied in order to fill gaps due to missing data, and errors analysis made it possible to infer the uncertainty on the carbon balance. Overall, the site was found to have a net carbon uptake of ≈5 t C ha(-1) year(-1), but the effects of the drought of 2005 were still noticed in 2006, when the climate disturbance caused the site to become a net source of carbon to the atmosphere. Different regions of the Amazon forest might respond differently to climate extremes due to differences in dry season length, annual precipitation, species compositions, albedo and soil type. Longer time series of fluxes measured over several locations are required to better characterize the effects of climate anomalies on the carbon and water balances for the whole Amazon region. Such valuable datasets can also be used to calibrate biogeochemical models and infer on future scenarios of the Amazon forest carbon balance under the influence of climate change.

Published

2014

4. Variabilidade diária da precipitação em regiões de floresta e pastagem na Amazônia

Author

Rafael FERREIRA DA COSTA, João Roberto Pinto FEITOSA, Gilberto FISCH, Solange Silva de SOUZA, and Carlos A NOBRE

Subjects

Precipitação, variabilidade diária, pastagem, floresta, Science (General), Q1-390

Abstract

As estações automáticas do Projeto ABRACOS instaladas na Amazônia Ocidental forneceram os dados horários de precipitação em áreas de pastagem e floresta, durante o trimestre mais chuvoso (j/f/m) no período de 1992 a 1995. A variabilidade diária de precipitação maior que 1 mm h1 mostrou uma frequência relativa de 6,7% dos casos às 14 horas local (hl) na pastagem e 5,7% às 16 hl na floresta. O período da tarde (13-18 hl) registra acima de 30% dos eventos de precipitação em ambos os sítios. Há uma boa regularidade na distribuição horária dos eventos, principalmente na floresta. Para as precipitações maiores que 10 mm h1, existe uma concentração dos casos no final da tarde. Na pastagem 12,3%, e na floresta 11,5% dos eventos ocorrem às 18 hl. O intervalo entre 7-18 hl detém 64,9% dos casos na pastagem, e 57,7% na floresta. Do total de eventos de precipitação, 14% são maiores que 10 mm h1, tanto na floresta como na pastagem. Comparando-se o total de chuva ocorrido nas áreas de floresta e pastagem, o volume precipitado na floresta é cerca de 28% em média superior ao da pastagem.

Published

1998

5. Uma revisão geral sobre o clima da Amazônia

Author

Gilberto FISCH, José A MARENGO, and Carlos A NOBRE

Subjects

Amazônia, simulação climática, sistemas atmosféricos, experimentos micrometeorológicos, Science (General), Q1-390

Abstract

Este trabalho busca apresentar, de uma maneira compacta, os principais resultados científicos já alcançados pela comunidade brasileira e mundial sobre pesquisas na Amazônia. Aborda-se o paleoclima da região, bem como as características atuais, em termos de temperatura do ar e da distribuição de chuvas. São discutidos os principais sistemas atmosféricos atuantes na região, tais como linhas de instabilidade, brisa fluvial, teleconexões com El-Niño, interação com sistemas frontais no sul do país, friagens, além da variabilidade do clima nas escalas interanuais e de longo-prazo. Tendo em vista as altas taxas de desmatamento em algumas partes da Amazônia, são discutidos as principais modificações microclimáticas e resultados obtidos por simulações numéricas devido à substituição de floresta tropical por áreas de pastagens. Finalizando, é apresentado um resumo dos vários experimentos micrometeorológicos que ocorreram na Amazônia nas últimas duas décadas.

Published

1998

6. In situ short-term responses of Amazonian understory plants to elevated CO2

Author

Damasceno, Amanda Rayane, Garcia, Sabrina, Aleixo, Izabela Fonseca, Menezes, Juliane Cristina Gomes, Pereira, Iokanam Sales, De Kauwe, Martin G., Ferrer, Vanessa Rodrigues, Fleischer, Katrin, Grams, Thorsten E.E., Guedes, Alacimar V., Hartley, Iain Paul, Kruijt, Bart, Lugli, Laynara Figueiredo, Martins, Nathielly Pires, Norby, Richard J., Pires-Santos, Julyane Stephanie, Portela, Bruno Takeshi Tanaka, Rammig, Anja, de Oliveira, Leonardo Ramos, Santana, Flávia Delgado, Santos, Yago Rodrigues, de Souza, Crisvaldo Cássio Silva, Ushida, Gabriela, Lapola, David Montenegro, Quesada, Carlos Alberto Nobre, Domingues, Tomas Ferreira, Damasceno, Amanda Rayane, Garcia, Sabrina, Aleixo, Izabela Fonseca, Menezes, Juliane Cristina Gomes, Pereira, Iokanam Sales, De Kauwe, Martin G., Ferrer, Vanessa Rodrigues, Fleischer, Katrin, Grams, Thorsten E.E., Guedes, Alacimar V., Hartley, Iain Paul, Kruijt, Bart, Lugli, Laynara Figueiredo, Martins, Nathielly Pires, Norby, Richard J., Pires-Santos, Julyane Stephanie, Portela, Bruno Takeshi Tanaka, Rammig, Anja, de Oliveira, Leonardo Ramos, Santana, Flávia Delgado, Santos, Yago Rodrigues, de Souza, Crisvaldo Cássio Silva, Ushida, Gabriela, Lapola, David Montenegro, Quesada, Carlos Alberto Nobre, and Domingues, Tomas Ferreira

Abstract

The response of plants to increasing atmospheric CO2 depends on the ecological context where the plants are found. Several experiments with elevated CO2 (eCO2) have been done worldwide, but the Amazonian forest understory has been neglected. As the central Amazon is limited by light and phosphorus, understanding how understory responds to eCO2 is important for foreseeing how the forest will function in the future. In the understory of a natural forest in the Central Amazon, we installed four open-top chambers as control replicates and another four under eCO2 (+250 ppm above ambient levels). Under eCO2, we observed increases in carbon assimilation rate (67%), maximum electron transport rate (19%), quantum yield (56%), and water use efficiency (78%). We also detected an increase in leaf area (51%) and stem diameter increment (65%). Central Amazon understory responded positively to eCO2 by increasing their ability to capture and use light and the extra primary productivity was allocated to supporting more leaf and conducting tissues. The increment in leaf area while maintaining transpiration rates suggests that the understory will increase its contribution to evapotranspiration. Therefore, this forest might be less resistant in the future to extreme drought, as no reduction in transpiration rates were detected.

Published

2024

7. Sedimental Journey: Soil Fertility of Fluvial Islands Increases with Proximity to An Amazonian White-Water River

Author

de Souza Ferreira Neto, Gilson, Baccaro, Fabricio Beggiato, Quesada, Carlos Alberto Nobre, Figueiredo, Axa Simões, Oliveira, Regison, Gomes, Erison, Spironello, Wilson Roberto, and Barnett, Adrian A.

Published

2021

8. As técnicas e estratégias de resolução de problemas cobrados em Olimpíadas de Matemática

Author

Pinheiro, Henrique Maia, primary, Bonfim, Adenilson Pereira Bonfim, additional, Dias, Gustavo Nogueira, additional, Vogado, Gilberto Emanoel Reis, additional, Barreto, Wagner Davy Lucas, additional, Sousa da Silva, Pedro Roberto, additional, Rodrigues, Alessandra Epifanio, additional, Da Rocha, Herson Oliveira, additional, Da Silva, Carlos Alberto Nobre, additional, Amaral, Maria Graciete Rodrigues do, additional, and Souza Júnior, José Carlos Barros de, additional

Published

2023

9. Articulações federativas em contextos metropolitanos

Author

Carlos Eduardo Nobre

Subjects

federação, articulações intergovernamentais, planejamento e gestão metropolitanos, brasil, Human ecology. Anthropogeography, GF1-900, Physical geography, GB3-5030, Geography (General), G1-922

Abstract

Discutimos as articulações federativas verticais e horizontais em contextos metropolitanos, partindo da problemática do “lugar” da metrópole frente ao sistema federativo brasileiro. Se, por um lado, municípios que integram regiões metropolitanas se articulam verticalmente com governos estaduais e Federal; por outro lado, estes mesmos municípios se desarticulam horizontalmente. O resultado seria a fragmentação e desintegração da metrópole. Advogamos a necessidade de uma solidariedade institucional a partir das dinâmicas internas à metrópole, ao tempo em que propomos repensar outra configuração federativa para enfrentamento dos problemas metropolitanos.

Published

2019

10. Pathways from Deforestation to Restoration

Author

Diego Oliveira Brandão, Julia Arieira, and Carlos Afonso Nobre

Subjects

General Medicine

Published

2023

11. Soil Vegetation Interactions Across Amazonia

Author

Quesada, carlos Alberto Nobre

Subjects

634.9

Published

2008

12. ORIGEM, EVOLUÇÃO E SUSTENTABILIDADE DA PAISAGEM DOS MARES DE MORROS

Author

Leonardo De Oliveira Resende, Luiz Felipe Guanaes Rego, Carlos Afonso Nobre, and Sonia Seger Pereira Mercedes

Abstract

A forma com que a sociedade se apropria dos recursos naturais complexifica e fragiliza a resiliência dos ecossistemas, acelerando a degradação do seu próprio meio. A paisagem brasileira dos Mares de Morros é formada por uma cadeia de montanhas pertencentes ao Planalto Atlântico, abrangendo 13 estados brasileiros. Se, por um lado, a topografia declivosa limita a mecanização, aumentando as fragilidades socioeconômicas, por outro, intensifica os riscos de degradação ambiental, sobretudo quando associada ao sobrepastoreio do gado. Esta pesquisa revisou 748 documentos acadêmicos e não acadêmicos produzidos entre 1963 e 2020, com o objetivo de sintetizar a origem, a evolução e a sustentabilidade dos Mares de Morros, a fim de que esses conhecimentos sejam aplicados na produção sustentável de alimentos. A pesquisa realizada sinaliza que a falta de conhecimento do contexto dos processos históricos dessa paisagem contribuiu para intensificar o ciclo de degradação antropogênica, sendo a matriz extrativo-agroexportadora dos recursos naturais adotada pelos sistemas produtivos considerada como seu principal vetor. Também foi identificada a existência de sistemas de produção modernos e inteligentes, capazes de iniciar um novo ciclo produtivo e sustentável para essa paisagem, mesmo em terras não mecanizáveis, que trazem uma perspectiva positiva para a reversão desse cenário.

Published

2022

13. Amazon Biobank: a collaborative genetic database for bioeconomy development

Author

Leonardo T. Kimura, Ewerton R. Andrade, Ismael Nobre, Carlos A. Nobre, Bruno A. S. de Medeiros, Diego M. Riaño-Pachón, Felipe K. Shiraishi, Tereza C. M. B. Carvalho, and Marcos A. Simplicio

Subjects

Genetics, General Medicine

Published

2023

14. Human impacts outpace natural processes in the Amazon

Author

James S. Albert, Ana C. Carnaval, Suzette G. A. Flantua, Lúcia G. Lohmann, Camila C. Ribas, Douglas Riff, Juan D. Carrillo, Ying Fan, Jorge J. P. Figueiredo, Juan M. Guayasamin, Carina Hoorn, Gustavo H. de Melo, Nathália Nascimento, Carlos A. Quesada, Carmen Ulloa Ulloa, Pedro Val, Julia Arieira, Andrea C. Encalada, and Carlos A. Nobre

Subjects

Multidisciplinary

Abstract

Amazonian environments are being degraded by modern industrial and agricultural activities at a pace far above anything previously known, imperiling its vast biodiversity reserves and globally important ecosystem services. The most substantial threats come from regional deforestation, because of export market demands, and global climate change. The Amazon is currently perched to transition rapidly from a largely forested to a nonforested landscape. These changes are happening much too rapidly for Amazonian species, peoples, and ecosystems to respond adaptively. Policies to prevent the worst outcomes are known and must be enacted immediately. We now need political will and leadership to act on this information. To fail the Amazon is to fail the biosphere, and we fail to act at our peril.

Published

2023

15. Constraining Amazonian land surface temperature sensitivity to precipitation and the probability of forest dieback

Author

Celso von Randow, Tiexi Chen, Yuanfang Chai, Guilherme Martins, Carlos A. Nobre, Han Dolman, Earth and Climate, and Earth Sciences

Subjects

0303 health sciences, Atmospheric Science, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Land surface temperature, Amazon rainforest, Amazonian, Vegetation, Tipping point (climatology), 01 natural sciences, Environmental sciences, 03 medical and health sciences, Forest dieback, Air temperature, Climatology, Meteorology. Climatology, SDG 13 - Climate Action, Environmental Chemistry, Environmental science, GE1-350, Precipitation, QC851-999, 030304 developmental biology, 0105 earth and related environmental sciences

Abstract

The complete or partial collapse of the forests of Amazonia is consistently named as one of the top ten possible tipping points of Planet Earth in a changing climate. However, apart from a few observational studies that showed increased mortality after the severe droughts of 2005 and 2010, the evidence for such collapse depends primarily on modelling. Such studies are notoriously deficient at predicting the rainfall in the Amazon basin and how the vegetation interacts with the rainfall is poorly represented. Here, we use long-term surface-based observations of the air temperature and rainfall in Amazonia to provide a constraint on the modelled sensitivity of temperature to changes in precipitation. This emergent constraint also allows us to significantly constrain the likelihood of a forest collapse or dieback. We conclude that Amazon dieback under IPCC scenario RCP8.5 (crossing the tipping point) is not likely to occur in the twenty-first century.

Published

2021

16. Deforestation and climate change are projected to increase heat stress risk in the Brazilian Amazon

Author

Beatriz Fátima Alves de Oliveira, Marcus Jorge Bottino, Carlos A. Nobre, and Paulo Nobre

Subjects

QE1-996.5, Natural resource economics, Amazon rainforest, Wet-bulb globe temperature, Deforestation and climate change, Climate change, Geology, Environmental sciences, Effects of global warming, Deforestation, General Earth and Planetary Sciences, Environmental science, Climate model, Land use, land-use change and forestry, GE1-350, sense organs, geographic locations, General Environmental Science

Abstract

Land use change and deforestation can influence local temperature and climate. Here we use a coupled ocean-atmosphere model to assess the impact of savannization of the Amazon Basin on the wet-bulb globe temperature heat stress index under two climate change scenarios (RCP4.5 and RCP8.5). We find that heat stress exposure due to deforestation was comparable to the effect of climate change under RCP8.5. Our findings suggest that heat stress index could exceed the human adaptation limit by 2100 under the combined effects of Amazon savannization and climate change. Moreover, we find that risk of heat stress exposure was highest in Northern Brazil and among the most socially vulnerable. We suggest that by 2100, savannization of the Amazon will lead to more than 11 million people will be exposed heat stress that poses an extreme risk to human health under a high emission scenario. Complete savannization of the Amazon Basin would enhance the effects of climate change on local heat exposure and pose a risk to human health, according to climate model projections.

Published

2021

17. Policy Brief: A call for global action to move the Amazon rainforest system away from tipping points

Author

Marina Hirota, Carlos A. Nobre, Ane Alencar, Julia Areiera, Francisco de Assis Costa, Bernardo Flores, Clarissa Gandour, Carmen Josse, Carolina Levis, German Póveda, and Carlos Eduardo F. Young

Abstract

Global climate change, the conversion of large areas of tropical forest to agriculture and rangelands, and forest degradation driven by wildfires are pushing the Amazon towards irreversible thresholds, often called tipping points. We need an immediate deforestation moratorium in areas more likely to cross a tipping point (e.g., Southern Amazon), and in protected areas and Indigenous territories; so that there is zero deforestation in the Amazon by 2030.

Published

2022

18. Versión extendida: Un llamado a la acción global para alejar el sistema forestal Amazónico de los puntos de inflexión

Author

Marina Hirota, Carlos A. Nobre, Ane Alencar, Julia Areiera, Francisco de Assis Costa, Bernardo Flores, Clarissa Gandour, Carmen Josse, Carolina Levis, German Póveda, and Carlos Eduardo F. Young

Abstract

Territorios indígenas (ITs, en sus siglas en inglés) en la Amazonia protegen aproximadamente 24,GtC sobre el suelo, funcionan como barreras significativas contra la deforestación y la degradación del bosque, y sirven como una defensa importante contra el cambio climático. Los ITs demarcados tienen significativamente menos deforestación en comparación con tierras no reconocidas, demostrando la importancia de demarcar ITs para proteger los sustentos y la cultura de los indígenas Amazónicos y para conservar sus bosques y ríos.

Published

2022

19. Policy Brief: A Call for Global Action to Move the Amazon Forest System Away from Tipping Points (Extended Version)

Author

Marina Hirota, Carlos A. Nobre, Ane Alencar, Julia Areiera, Francisco de Assis Costa, Bernardo Flores, Clarissa Gandour, Carmen Josse, Carolina Levis, German Póveda, and Carlos Eduardo F. Young

Abstract

Global climate change, the conversion of large areas of tropical forest to agriculture and rangelands, and forest degradation driven by wildfires are pushing the Amazon towards irreversible thresholds, often called tipping points. We need an immediate deforestation moratorium in areas more likely to cross a tipping point (e.g., Southern Amazon), and in protected areas and Indigenous territories; so that there is zero deforestation in the Amazon by 2030.

Published

2022

20. Policy Brief: Um Chamado de Ação Global para Evitar os ‘Pontos de Não-Retorno da Floresta Amazônica

Author

Marina Hirota, Carlos A. Nobre, Ane Alencar, Julia Areiera, Francisco de Assis Costa, Bernardo Flores, Clarissa Gandour, Carmen Josse, Carolina Levis, German Póveda, and Carlos Eduardo F. Young

Abstract

Territórios Indígenas (TIs) na Amazônia protegem aproximadamente 24.5 gigatoneladas de carbono (GtC) acima do solo, atuam como barreiras significativas contra o desmatamento e a degradação florestal, e funcionam como importantes amortecedores contra as mudanças climáticas. TIs demarcadas apresentam desmatamento significativamente menor do que terras não reconhecidas oficialmente, demonstrando a importância de se demarcar TIs tanto para proteger os meios de subsistência e as culturas dos povos nativos da Amazônia, quanto para conservar suas florestas e rios.

Published

2022

21. The role of spatial mobility in malaria transmission in the Brazilian Amazon: The case of Porto Velho municipality, Rondônia, Brazil (2010-2012).

Author

Jussara Rafael Angelo, Tony Hiroshi Katsuragawa, Paulo Chagastelles Sabroza, Lino Augusto Sander de Carvalho, Luiz Hildebrando Pereira da Silva, and Carlos Afonso Nobre

Subjects

Medicine, Science

Abstract

BACKGROUND:This study aims to describe the role of mobility in malaria transmission by discussing recent changes in population movements in the Brazilian Amazon and developing a flow map of disease transmission in this region. METHODOLOGY/PRINCIPAL FINDINGS:This study presents a descriptive analysis using an ecological approach on regional and local scales. The study location was the municipality of Porto Velho, which is the capital of Rondônia state, Brazil. Our dataset was obtained from the official health database, the population census and an environmental database. During 2000-2007 and 2007-2010, the Porto Velho municipality had an annual population growth of 1.42% and 5.07%, respectively. This population growth can be attributed to migration, which was driven by the construction of the Madeira River hydroelectric complex. From 2010 to 2012, 63,899 malaria-positive slides were reported for residents of Porto Velho municipality; 92% of the identified samples were autochthonous, and 8% were allochthonous. The flow map of patients' movements between residential areas and areas of suspected infection showed two patterns of malaria transmission: 1) commuting between residential areas and the Jirau hydropower dam reservoir, and 2) movements between urban areas and farms and resorts in rural areas. It was also observed that areas with greater occurrences of malaria were characterized by a low rate of deforestation. CONCLUSIONS:The Porto Velho municipality exhibits high malaria endemicity and plays an important role in disseminating the parasite to other municipalities in the Amazon and even to non-endemic areas of the country. Migration remains an important factor for the occurrence of malaria. However, due to recent changes in human occupation of the Brazilian Amazon, characterized by intense expansion of transportation networks, commuting has also become an important factor in malaria transmission. The magnitude of this change necessitates a new model to explain malaria transmission in the Brazilian Amazon.

Published

2017

22. COMPARAÇÃO ENTRE A APLICAÇÃO DO MODELO SHALSTAB COM MAPAS DE SUSCETIBILIDADE E RISCO DE DESLIZAMENTOS NA BACIA DO CÓRREGO PIRACUAMA EM CAMPOS DO JORDÃO - SP

Author

Carla Corrêa Prieto, Rodolfo Moreda Mendes, Silvo Jorge Coelho Simões, and Carlos Afonso Nobre

Subjects

Deslizamento em Encostas, SHALSTAB, Suscetibilidade, Campos do Jordão, Desastres Naturais, Geography. Anthropology. Recreation, Cartography, GA101-1776

Abstract

Eventos de deslizamentos em encostas ocorrem de forma recorrente no município de Campos do Jordão - SP, causando perdas humanas e danos materiais. O presente artigo tem o objetivo de identiï¬car espacialmente as áreas com instabilidade das encostas na bacia do córrego Piracuama, onde se localiza a Vila Albertina, uma área frequentemente afetada por esses eventos. Para tanto, fez-se a aplicação do modelo de estabilidade de encostas (SHALSTAB) e comparou-se os resultados numéricos com dados de mapeamentos de suscetibilidade e risco desenvolvidos pela CPRM em parceira com o IPT e IG, respectivamente. Os resultados foram consistentes com os mapeamentos, uma vez que as áreas identiï¬cadas como mais instáveis haviam sido mapeadas como áreas de elevada suscetibilidade e risco a deslizamentos. Essa é uma pesquisa preliminar que pode indicar as áreas suscetíveis ao processo de deslizamento planar raso. Esse estudo pode embasar pesquisa sobre análise de estabilidade de maneira mais pontual, em escala de detalhe.

Published

2017

23. Modeling the impact of net primary production dynamics on post-disturbance Amazon savannization

Author

MÔNICA C.A. SENNA, MARCOS H. COSTA, ERIC A. DAVIDSON, and CARLOS A. NOBRE

Subjects

Amazônia, clima, desmatamento, modelagem de ecossistemas, produção primária líquida, savanização, Science

Abstract

Amazon tropical forests are being replaced by pasturelands and croplands, but they sometimes revert to regrowth forest when abandoned after a period of agricultural use. Research suggests that this secondary regrowth is limited by climate and nutrient availability and, using a coupled biosphere-atmosphere model, we investigated patterns in the regrowth of the Amazon rainforest after a full deforestation event, considering different types of nutrient stress. We found that, over a 50 year regrowth period, the reduction of precipitation caused by large-scale deforestation was not sufficient to prevent secondary forest regrowth, but this decrease in precipitation combined with nutrient limitation, due to logging and frequent fires, did indeed prevent forest regrowth in central and southern Amazonia, leading to a savannization. These results are concerning, as the northern Mato Grosso region has the highest clearing rate in Amazonia. The low resilience of the forest under nutrient stress indicates that a large scale disturbance could greatly expand the area suitable for cropland, accelerating forest disappearance.

Published

2014

24. Projections of future forest degradation and CO

Author

Talita O, Assis, Ana Paula D, Aguiar, Celso, von Randow, and Carlos A, Nobre

Abstract

In recent years, the area affected by forest degradation in the Brazilian Amazon has frequently been higher than deforestation. From August 2006 to July 2019, the degraded area totaled 194,058 km

Published

2022

25. Natural Hazards Fatalities in Brazil, 1979–2019

Author

Gabriela Couto, Alber Sanchez, CARLOS AFONSO NOBRE, and Regina Alvalá

Abstract

The impact of natural hazards on nations and societies is a global challenge and concern. Studies worldwide have been conducted within and among countries, to examine the spatial distribution and temporal evolution of fatalities and their consequences in societies. In Brazil, no studies have comprehensively identified fatalities associated with all natural hazards and their singularities by decade, region, sex, age, and other victim characteristics. This study develops a deep analysis on the Brazilian Data Mortality of the Brazilian Ministry of Health, from 1979 to 2019, identifying the natural hazards that kill the greatest number of people in Brazil and its surrounding particularities. Lightning is the deadliest natural hazard in Brazil during this period, with a gradual decrease in the number of fatal victims. Hydrogeological fatalities increases from 2000, and the most fatalities develop from 2010 to 2019. Despite Brazil being a tropical country affected by severe droughts, extreme heat had the lowest number of fatalities, almost irrelevant when compared with that of other natural hazards. The period from December to March is with the higher number of fatalities, and the Southeast region is the most populous regions were the most are fatally affected. The number of male victims is double that of female victims, of all ages, and unmarried victims died the most. Thus, it is fundamental to recognize and make public the knowledge of different natural hazards’ impacts on communities and societies, namely people and their livelihoods, to evaluate challenges and recognize opportunities to reduce natural hazards’ impacts on Brazil.

Published

2022

26. Assessing drought in the drylands of northeast Brazil under regional warming exceeding 4 °C

Author

Lincoln M. Alves, Regina Célia dos Santos Alvalá, Roger Rodrigues Torres, Karinne R. L. Deusdará, Antonio R. Magalhaes, Gilvan Sampaio, Ana Paula Martins do Amaral Cunha, Carlos A. Nobre, Germano Gondim Ribeiro Neto, José A. Marengo, Luz Adriana Cuartas, and Felipe Alexandre

Subjects

Atmospheric Science, education.field_of_study, Food security, Agroforestry, business.industry, Population, Climate change, Vegetation, Arid, Geography, Agriculture, Natural hazard, Earth and Planetary Sciences (miscellaneous), business, education, Bushland, Water Science and Technology

Abstract

Historically, during periods of extreme drought, food security in the drylands of the semiarid region of Northeast Brazil (NEB) is under severe risk due to agricultural collapse. The drought that started in 2012 continues to highlight the vulnerability of this region, and arid conditions have been detected during the last years mainly in the central semiarid region, covering almost 2% of the NEB. Climate projections show an increase in the area under water stress condition, covering 49% and 54% of the NEB region by 2700 and 2100, respectively, with a higher likelihood with warming above 4 °C. The projections of vegetative stress conditions derived from the empirical model for Vegetation Health Index (VHI) are consistent with projections from vegetation models, where semi-desert types typical of arid conditions would replace the current semiarid bushland vegetation (“caatinga”) by 2100. Due to the impacts of the 2012–2017 drought, public policies have been implemented to reduce social and economic vulnerability for small farmers but are not enough as poor population continues to be affected. In the long term, to make the semiarid less vulnerable to drought, strengthened integrated water resources management and a proactive drought policy are needed to restructure the economy. Integrating drought monitoring and seasonal climate forecasting provides means of assessing impacts of climate variability and change, leading to disaster risk reduction through early warning. Lastly, there is an urgent need for integrated assessments because the possibility that under permanent drought conditions with warming above 4 °C, arid conditions would prevail in NEB since 2060.

Published

2020

27. Estimates of total phosphorus for Amazonia based on an expanded harmonized soil database

Author

Monique Rodrigues da Silva Andrade Maia, Liana Oighenstein Anderson, and Carlos Alberto Nobre Quesada

Abstract

The element phosphorus total (Pt) is considered a basic element for life on earth. It controls key processes of CO2 absorption from tropical forests to food production. For the Amazon region, estimates of Pt in the soil are scarce. In this study, we developed models through equations of pedotransfer function (PTF's) using data collected in the field (RAINFOR data). Were generated 16 regression models based on the Akaike information criteria (AIC) with R² above 65% was validated with independent RAINFOR data. The results Pt distribution were spatialized using interpolations by geostatistical method of inverse distance weights (IDW) and shown through maps.

Published

2022

28. The ATTO Micrometeorological Intercomparison Experiment (ATMIX)

Author

Luca Mortarini, Nelson Dias, Cleo Quaresma Dias, Daiane Brondani, Otavio Acevedo, Antônio Manzi, Pablo de Oliveira, Anywhere Tsokankunku, Fernando Rossato, Alessandro Araújo, Mathias Soergel, and Carlos Alberto Nobre Quesada

Abstract

A central constituent of the ATTO project is the deployment of an array of sonic anemometers to measure vertical profiles of means and second-order moments of the wind velocity vector. The two instruments used are the Campbell Scientific Instruments CSAT-3B and the Thies Ultrasonic Anemometer 3D. The accuracy of the vertical profiles of turbulent quantities critically depensds on an absence of bias between the measurement levels; however, dedicated intercomparisons of the sonic anemometers used in ATTO have not been previously performed. The main objective of the experiment was to check how close the sonic anemometers designated to be installed respond to the same atmospheric conditions, and to develop confidence in interpreting the measured data.

Published

2022

29. Adaptation and resilience of agricultural systems to local climate change and extreme events: an integrative review

Author

Eduardo Delgado Assad, Miguel Calmon, Maria Leonor Lopes-Assad, Rafael Feltran-Barbieri, João Pompeu, Leonardo Moreno Domingues, and Carlos Afonso Nobre

Subjects

Planaveg, Sistema agroflorestal, Plano ABC, Agronomy and Crop Science, resiliência climática

Abstract

Losses in agricultural production, mainly caused by extreme temperature, rainfall and drought, have demanded the adaptation of the Brazilian agriculture to the ongoing climate change. This study aimed to evaluate, through an integrative review, the effects of agricultural practices established by two Brazilian public policies (ABC Plan and Planaveg) on the resilience and adaptation of the country’s agricultural systems, considering the effects on local climate and extreme events. All the Embrapa library collections were used as main sources, and the Google Scholar was used as a secondary source. The search included publications from 1998 to April 2022 and resulted in 334 data, extracted from 51 references, covering at least one factor and one practice. The review showed that the proposed practices may contribute to the resilience and adaptation of the Brazilian agricultural and forestry sectors to climate change in the main production regions. Studies have indicated that the incorporation of the arboreal component into production systems may provide an environment more resilient to droughts, increased air humidity, reduced temperature impact and reduced fire risks, among other benefits. The adoption of the ABC Plan and Planaveg practices by the agricultural sector is an option feasible, strategic and well-aligned with a low-carbon economy, while it increases the resilience to present and future climate change impacts.

Published

2022

30. Estimates of total phosphorus for Amazonia based on an expanded harmonized soil database

Author

Maia, Monique Rodrigues da Silva Andrade, primary, Anderson, Liana Oighenstein, additional, and Quesada, Carlos Alberto Nobre, additional

Published

2022

31. Global environmental change research: empowering developing countries

Author

Carlos A. Nobre, Myanna Lahsen, and Jean P.H.B. Ometto

Subjects

sustentabilidade, Experimentos de Grande Escala da Biosfera-Atmosfera na Amazônia, conhecimento, desenvolvimento, serviços ambientais, sustainability, Large-Scale Biosphere-Atmosphere Experiment in Amazonia (LBA), knowledge, development, ecosystem services, Science

Abstract

This paper discusses ways to reconcile the United Nations Millennium Development Goals with environmental sustainability at the national and international levels. The authors argue that development and better use of sustainability relevant knowledge is key, and that this requires capacity building globally, and especially in the less developed regions of the world. Also essential is stronger integration of high-quality knowledge creation and technology-and policy-development, including, importantly, the creation of centers of excellence in developing regions which effectively use and produce applications-directed high quality research and bring it to bear on decision making and practices related to environmental change and sustainable management of natural resources. The authors argue that Southern centers of excellence are a necessary first step for bottom-up societal transformation towards sustainability, and that such centers must help design innovative ways to assess and place value on ecosystem services.Este artigo discute caminhos para conciliar os objetivos do desenvolvimento das Nações Unidas para o milênio (United Nations Millennium Development Goals) com sustentabilidade ambiental em níveis regionais e globais. Os autores argumentam que o desenvolvimento e melhor uso do conhecimento, com relevantes aspectos que facilitam a sustentabilidade, é crucial e que isto demanda investimentos na capacitação científica/tecnológica, fundamentalmente nas regiões menos desenvolvidas do mundo. É essencial também uma forte integração da tecnologia com a criação do conhecimento de alto nível e a estruturação de uma política pró-desenvolvimento que incluiria a criação de centros de excelência nas regiões em desenvolvimento do mundo, as quais efetivamente produziriam pesquisas de alta qualidade com foco e aplicabilidade direta para questões regionais, com potencial efetivo de influenciar diretamente nas decisões políticas e práticas com relação às mudanças ambientais e ao manejo sustentável dos recursos naturais. Os autores argumentam também que estes centros de excelência são um primeiro passo necessário para uma transformação a partir da sociedade em direção à sustentabilidade ambiental, e que estes centros devem contribuir ao desenho de caminhos inovadores na compreensão, utilização e valorização de serviços ambientais prestados pelos ecossistemas.

Published

2008

32. A new world natural vegetation map for global change studies

Author

David M. Lapola, Marcos D. Oyama, Carlos A. Nobre, and Gilvan Sampaio

Subjects

vegetação natural, floresta tropical, bioma, fitogeografia, parâmetros biogeofísicos, mapa de vegetação, natural vegetation, tropical forest, biome, phytogeography, biogeophysical parameters, vegetation map, Science

Abstract

We developed a new world natural vegetation map at 1 degree horizontal resolution for use in global climate models. We used the Dorman and Sellers vegetation classification with inclusion of a new biome: tropical seasonal forest, which refers to both deciduous and semi-deciduous tropical forests. SSiB biogeophysical parameters values for this new biome type are presented. Under this new vegetation classification we obtained a consensus map between two global natural vegetation maps widely used in climate studies. We found that these two maps assign different biomes in ca. 1/3 of the continental grid points. To obtain a new global natural vegetation map, non-consensus areas were filled according to regional consensus based on more than 100 regional maps available on the internet. To minimize the risk of using poor quality information, the regional maps were obtained from reliable internet sources, and the filling procedure was based on the consensus among several regional maps obtained from independent sources. The new map was designed to reproduce accurately both the large-scale distribution of the main vegetation types (as it builds on two reliable global natural vegetation maps) and the regional details (as it is based on the consensus of regional maps).Elaborou-se um novo mapa global de vegetação natural naresolução horizontal de 1 grau para uso em modelos climáticos de circulação geral. Utilizou-se a classificação de vegetação de Dorman e Sellers com a inclusão de um novo bioma: floresta tropical estacional, que compreende as florestas tropicais decíduas e semidecíduas. Para este novo tipo de bioma, apresentaram-se os valores de parâmetros biogeofísicos domodelo de processos à superfície SSiB. Sob essa nova classificação de vegetação, obteve-se um mapa de consenso entre dois mapas globais de vegetação natural amplamente utilizados em estudos climáticos. Mostrou-se que esses dois mapas alocam biomas diferentes em cerca de 1/3 dos pontos de grade continentais. Para obter um novo mapa global de vegetação natural, as áreas de não-consenso foram preenchidas utilizando-se um conjunto de mais de 100 mapas regionais disponíveis na Internet. Para minimizar os riscos de se usar informação de baixa qualidade, os mapas regionais foram obtidos de sítios confiáveis da Internet, e o procedimento de preenchimento baseou-se no consenso entre vários mapas regionais obtidos de fontes independentes. Elaborou-se o novo mapa de modo a reproduzir em grande escala a distribuição dos principais tipos de vegetação (uma vez que se pauta em dois mapas globais de vegetação natural confiáveis) e também detalhes regionais (uma vez que se baseia em consenso de mapas regionais) com precisão.

Published

2008

33. The effects of Amazon deforestation on non-timber forest products

Author

Lauro Euclides Soares Barata, Carlos A. Nobre, Diego Oliveira Brandão, and Ismael Nobre

Subjects

Global and Planetary Change, Euterpe, biology, Agroforestry, Amazon rainforest, biology.organism_classification, Carapa, food.food, Forest restoration, Dipteryx, food, Geography, Deforestation, Theobroma grandiflorum, Brazil nut

Abstract

The relationships between deforestation and non-timber forest products (NTFPs) supply chains are investigated in 532 municipalities throughout the Brazilian Amazon. The NTFP production of acai berry (Euterpe spp.), andiroba (Carapa spp.), Brazil nut (Bertholletia excelsa Bonpl.), and tonka bean (Dipteryx spp.) has reduced with increasing deforestation rates (p

Published

2021

34. The Amazon Forest and Climate Change: A Sustainable Pathway to Avoid a Tipping Point

Author

Carlos A. Nobre and Ailton Fabrício-Neto

Subjects

business.industry, Environmental resource management, Environmental science, Climate change, Amazon forest, business, Tipping point (climatology)

Published

2021

35. Cartografia da ação: mapeamento das ocupações de vazios urbanos pelos movimentos de sem-teto de Maceió, AL (1999-2009)

Author

Carlos Eduardo Nobre

Subjects

movimentos sociais, ocupações, vazios urbanos, Social sciences (General), H1-99

Abstract

Apresentamos uma descrição das ações de ocupações de vazios urbanos engendradas por dois movimentos de sem-teto que atuaram na década de 2000, na cidade de Maceió, Alagoas. Propomos uma leitura das ocupações a partir da Cartografia da Ação como proposta por Ribeiro et al. (2001). Tal leitura nos permite apreender a um só tempo a localização dos objetos – vazios urbanos –; as ações dirigidas pelos sem-teto – as ocupações –; e os deslocamentos espontâneos e compulsórios mediante a realocação das famílias para conjuntos habitacionais implantados pelos órgãos públicos da prefeitura e do governo do estado. A partir do registro dos deslocamentos vislumbra-se uma cartografia da ação, isto é, o território sendo usado (SILVEIRA, 2009) pelos agentes hegemonizados que são constantemente forçados ao confinamento e à segregação territorial a partir de forças de comando hegemônicas pautadas no uso corporativo do território (SANTOS; SILVEIRA, 2005) e na sua negação de uso social.

Published

2015

36. Detecting vulnerability of humid tropical forests to multiple stressors

Author

Fred Stolle, Francisco Román, Thomas B. Smith, Sean P. Healey, Alvaro Duque, Richard Sufo Kankeu, Katia Fernandes, Francois De Vleeschouwer, Yadvinder Malhi, Dennis Del Castillo Torres, Sylvia Wilson, Hyongki Lee, Rodrigo Vargas, Nadine Therese Laporte-Goetz, Carlos A. Nobre, Raphael Tshimanga, Matthew C. Hansen, Kristofer R. Covey, Nuno Carvalhais, Robert G. M. Spencer, Christine May Johnson, Liang Xu, Nancy L. Harris, Sassan Saatchi, Michel André, Diane Russell, Atiek Widayati, Raymond Sinsi Lumbuenamo, Michelle Venter, Hinsby Cadillo-Quiroz, Hitofumi Abe, Aurora C. Elmore, Yan Yang, Steven P. Brumby, Veronique De Sy, Juliann E. Aukema, Thomas E. Lovejoy, Marcos Longo, Lina María Sánchez-Clavijo, Douglas Sheil, Janet Chernela, Jean-Michel Martinez, Alice M. S. Durieux, Victoria Gammino, Jeremy Radachowsky, Gillian Ann Cerbu, Gae Yansom Gowae, Dennis Garrity, Margaret Lowman, Joshua West, Lucy Gibbon, Robert G. Hilton, David Gibbs, Stuart J. Davies, Adam F. A. Pellegrini, Hesti Lestari Tata, Luis E. Fernandez, Isai V. Cubillos, Centre Tecnològic de Vilanova i la Geltrú, Universitat Politècnica de Catalunya. LAB - Laboratori d'Aplicacions Bioacústiques, Jet Propulsion Laboratory (JPL), California Institute of Technology (CALTECH)-NASA, Centre National de la Recherche Scientifique (CNRS), Instituto Franco-Argentino sobre Estudios de Clima y sus Impactos [Buenos Aires] (IFAECI), Centro de Investigaciones del Mar y la Atmósfera (CIMA), Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Facultad de Ciencias Exactas y Naturales [Buenos Aires] (FCEyN), Universidad de Buenos Aires [Buenos Aires] (UBA)-Universidad de Buenos Aires [Buenos Aires] (UBA)-Consejo Nacional de Investigaciones Científicas y Técnicas [Buenos Aires] (CONICET)-Facultad de Ciencias Exactas y Naturales [Buenos Aires] (FCEyN), and Universidad de Buenos Aires [Buenos Aires] (UBA)-Universidad de Buenos Aires [Buenos Aires] (UBA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

010504 meteorology & atmospheric sciences, Vulnerability index, Life on Land, forest response, autocorrelation, Humid subtropical climate, Vulnerability, Climate change, humid tropical forests, tipping point, 01 natural sciences, 03 medical and health sciences, Laboratory of Geo-information Science and Remote Sensing, carbon cycle, Earth and Planetary Sciences (miscellaneous), Bosecologie en Bosbeheer, Laboratorium voor Geo-informatiekunde en Remote Sensing, Amazon, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0105 earth and related environmental sciences, General Environmental Science, early warning, 0303 health sciences, Biomass (ecology), Land use, Ecology, Desenvolupament humà i sostenible::Degradació ambiental::Canvi climàtic [Àrees temàtiques de la UPC], Primary production, Tròpics -- Clima, 15. Life on land, Climatic changes, Tipping point (climatology), PE&RC, Forest Ecology and Forest Management, Boscos -- Conservació, Climate Action, Boscos i silvicultura, Congo, 13. Climate action, vulnerability index, Environmental science, Forests and forestry, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, climate stress, Canvis climàtics

Abstract

Humid tropical forests play a dominant role in the functioning of Earth but are under increasing threat from changes in land use and climate. How forest vulnerability varies across space and time and what level of stress forests can tolerate before facing a tipping point are poorly understood. Here, we develop a tropical forest vulnerability index (TFVI) to detect and evaluate the vulnerability of global tropical forests to threats across space and time. We show that climate change together with land-use change have slowed the recovery rate of forest carbon cycling. Temporal autocorrelation, as an indicator of this slow recovery, increases substantially for above-ground biomass, gross primary production, and evapotranspiration when climate stress reaches a critical level. Forests in the Americas exhibit extensive vulnerability to these stressors, while in Africa, forests show relative resilience to climate, and in Asia reveal more vulnerability to land use and fragmentation. TFVI can systematically track the response of tropical forests to multiple stressors and provide early-warning signals for regions undergoing critical transitions.

Published

2021

37. Amazonian Forest: The Products of Agroecological Systems: Considerations about the Natural Forest and Economic Exploitation for its Conservation and How to Develop Sustainable Agroforestry Systems that Induce the Reduction of Deforestation

Author

Carlos A. Nobre, Nathalia Nascimento, and Julia Arieira

Subjects

Reduction (complexity), Agroforestry, Deforestation, Economic exploitation, Natural forest, Environmental science, Amazonian forest, Agroecology

Abstract

This study demonstrates that the economic activity of the Amazon's natural forest has great potential yet to be developed when considering Non-Timber Forest Products (NTFPs) and those coming from agro-ecosystems (SAFs). Preliminary financial analyzes, in systems that are still incipient, point to a great potential for profitability of these alternative systems compared to traditional activities such as soybean and livestock farming, with the advantage of being conducted without degradation and deforestation, allowing the continuation with the support of the Amazonian ecological system. More research is needed to scale successful cases and more “dialogue” between the models of modern agriculture and the traditional knowledge to reach an integrated natural forest management system.

Published

2021

38. O balanço de carbono da Amazônia brasileira

Author

Carlos A. Nobre and Antônio D. Nobre

Subjects

Social sciences (General), H1-99

Abstract

GLOBALMENTE, a biota terrestre é um sumidouro significativo de dióxido de carbono (CO2) atmosférico. Estudos recentes do IPCC para a década de 1990 estimam a biota terrestre com sendo um sumidouro líquido de aproximadamente 1,4 gigatonelada de carbono por ano (assimilação líquida pela biota terrestre menos as emissões devidas às mudanças dos usos da terra). É provável que a maior parte desse suposto sumidouro aconteça nas florestas das latitudes médias e dos trópicos. Estudos do ciclo do carbono do Experimento LBA estão mostrando que as florestas não-perturbadas da Amazônia comportam-se com um forte sumidouro de carbono, com taxas na faixa de 1 a 7 toneladas por hectare por ano, ao passo que as áreas inundadas e os rios podem estar agindo como fonte de carbono de até 1,2 tonelada por hectare por ano. O desmatamento e a queima de biomassa representam uma emissão líquida de aproximadamente 0,2 gigatonelada de carbono por ano na Amazônia brasileira. Ainda que se leve em conta as grandes incertezas existentes sobre essas medidas, o balanço das evidências observacionais aponta para a possibilidade de que as florestas tropicais da América do Sul estejam funcionando como sumidouros de carbono da atmosfera.GLOBALLY, the terrestrial biota acts as a significant carbon sink for atmospheric carbon dioxide (CO2). The most recent estimate from IPCC for the 1990's puts the terrestrial biota at a net sink of 1.4 gigaton of carbon per year (net carbon uptake by the biota minus emissions from land use changes). It is likely that most of this presumed sink takes place in mid-latitude and tropical forests. Carbon cycle studies in the LBA Experiment indicate that the undisturbed forest of Amazonia may be a strong sink of carbon, at rates from 1 to 7 tons per hectare per year, whereas the wetlands may act as a source of carbon into the atmosphere of up to 1.2 ton per hectare per year. Deforestation and biomass burning in Brazilian Amazonia alone account for a net carbon dioxide emission of about 0,2 gigaton of carbon per year. Notwithstanding the still large uncertainties of these estimates, the balance of observational evidence points to the possibility that the tropical forests of South America function as a sink of carbon from the atmosphere.

Published

2002

39. Ecological restoration as a strategy for mitigating and adapting to climate change: lessons and challenges from Brazil

Author

Giselda Durigan, Edson Eyji Sano, Joberto Freitas, Alba Orli de Oliveira, Rafael de Paiva Salomão, José Salomão Oliveira Silva, Geraldo Wilson Fernandes, Brienza Junior, Leonel Graça Generoso, Alexandre B. Sampaio, Mercedes M. C. Bustamante, Ane Alencar, Aldicir Scariot, Isabel Benedetti Figueiredo, Helena Carrascosa, Ana C. M. Malhado, Marcelo Tabarelli, Ricardo Ribeiro Rodrigues, Daniel Luis Mascia, Iris Roitman, Rachel Biderman, Carlos A. Nobre, Aurélio Padovezi, Valério D. Pillar, José Alves Siqueira, Raul Valle, Edenise Garcia, Julia Z. Shimbo, and Annelise Vendramini

Subjects

REFLORESTAMENTO, Global and Planetary Change, 010504 meteorology & atmospheric sciences, Ecology, 0211 other engineering and technologies, Public policy, Climate change, Context (language use), 02 engineering and technology, 01 natural sciences, Ecosystem services, United Nations Framework Convention on Climate Change, Deforestation, Environmental impact assessment, 021108 energy, Business, Environmental planning, Restoration ecology, 0105 earth and related environmental sciences

Abstract

Climate change is a global phenomenon that affects biophysical systems and human well-being. The Paris Agreement of the United Nations Framework Convention on Climate Change entered into force in 2016 with the objective of strengthening the global response to climate change by keeping global temperature rise this century well below 2 °C above pre-industrial levels and to pursue efforts to limit the temperature increase even further to 1.5 °C. The agreement requires all Parties to submit their “nationally determined contributions” (NDCs) and to strengthen these efforts in the years ahead. Reducing carbon emissions from deforestation and forest degradation is an important strategy for mitigating climate change, particularly in developing countries with large forests. Extensive tropical forest loss and degradation have increased awareness at the international level of the need to undertake large-scale ecological restoration, highlighting the need to identify cases in which restoration strategies can contribute to mitigation and adaptation. Here we consider Brazil as a case study to evaluate the benefits and challenges of implementing large-scale restoration programs in developing countries. The Brazilian NDC included the target of restoring and reforesting 12 million hectares of forests for multiple uses by 2030. Restoration of native vegetation is one of the foundations of sustainable rural development in Brazil and should consider multiple purposes, from biodiversity and ecosystem services conservation to social and economic development. However, ecological restoration still presents substantial challenges for tropical and mega-diverse countries, including the need to develop plans that are technically and financially feasible, as well as public policies and monitoring instruments that can assess effectiveness. The planning, execution, and monitoring of restoration efforts strongly depend on the context and the diagnosis of the area with respect to reference ecosystems (e.g., forests, savannas, grasslands, wetlands). In addition, poor integration of climate change policies at the national and subnational levels and with other sectorial policies constrains the large-scale implementation of restoration programs. The case of Brazil shows that slowing deforestation is possible; however, this analysis highlights the need for increased national commitment and international support for actions that require large-scale transformations of the forest sector regarding ecosystem restoration efforts. Scaling up the ambitions and actions of the Paris Agreement implies the need for a global framework that recognizes landscape restoration as a cost-effective nature-based solution and that supports countries in addressing their remaining needs, challenges, and barriers.

Published

2019

40. The Brazilian Earth System Model ocean–atmosphere (BESM-OA) version 2.5: evaluation of its CMIP5 historical simulation

Author

Vinicius Buscioli Capistrano, Paulo Nobre, Carlos A. Nobre, Emanuel Giarolla, Andre Lanfer Marquez, Manoel Baptista Jr., Paulo Yoshio Kubota, Silvio Nilo Figueroa, José Paulo Bonatti, and Sandro F. Veiga

Subjects

010504 meteorology & atmospheric sciences, lcsh:QE1-996.5, Mode (statistics), Climate change, 010502 geochemistry & geophysics, 01 natural sciences, Atmosphere, lcsh:Geology, North Atlantic oscillation, Greenhouse gas, Climatology, Extratropical cyclone, Environmental science, Climate model, Climate state, 0105 earth and related environmental sciences

Abstract

The performance of the coupled ocean–atmosphere component of the Brazilian Earth System Model version 2.5 (BESM-OA2.5) was evaluated in simulating the historical period 1850–2005. After a climate model validation procedure in which the main atmospheric and oceanic variabilities were evaluated against observed and reanalysis datasets, the evaluation specifically focused on the mean climate state and the most important large-scale climate variability patterns simulated in the historical run, which was forced by the observed greenhouse gas concentration. The most significant upgrades in the model's components are also briefly presented here. BESM-OA2.5 could reproduce the most important large-scale variabilities, particularly over the Atlantic Ocean (e.g., the North Atlantic Oscillation, the Atlantic Meridional Mode, and the Atlantic Meridional Overturning Circulation), and the extratropical modes that occur in both hemispheres. The model's ability to simulate such large-scale variabilities supports its usefulness for seasonal climate prediction and in climate change studies.

Published

2019

41. A FEIRA-LIVRE COMO HERANÇA ALGODOEIRA EM UNIÃO DOS PALMARES-ALAGOAS E SUA CONSTITUIÇÃO NA ATUALIDADE COMO CIRCUITO INFERIOR

Author

Carlos Eduardo Nobre, Carlos Belo, and Eriano Francisco da Silva

Subjects

Espaço geográfico. Território usado. Algodão. Feira-livre. Feirantes., Human ecology. Anthropogeography, GF1-900, Geography (General), G1-922

Abstract

A feira-livre é uma importante atividade comercial que promove o crescimento econômico, o desenvolvimento social e cultural. No decorrer de sua evolução, as feiras-livres, como ponto de encontro entre o rural e o urbano, se consolidaram em importantes fornecedoras de suprimentos das cidades, principalmente nos pequenos municípios do Nordeste. A feira-livre é mais que um ponto de compra e venda de mercadorias. Ela promove a integração social e também preserva características culturais. Nessa ótica, este trabalho teve como objetivo analisar a feira-livre do município de União dos Palmares - Alagoas, vista sob a perspectiva de sua importância na dinâmica territorial a partir da produção algodoeira. A metodologia utilizada teve como base a pesquisa bibliográfica, bem como observações diretas e entrevistas com os feirantes, procurando identificar, a partir da teoria dos dois circuitos da economia urbana (SANTOS, 2008) os elementos, fatores e eventos que explicam a dinâmica da feira-livre bem como sua resistência no presente momento histórico. Dessa forma, mesmo quando se atribui a feira-livre como pertencente ao circuito inferior da economia, ela ainda se torna uma atividade urbana relevante, pois reflete as condições econômicas, políticas, sociais e culturais do lugar.

Published

2014

42. Amazon Creative Labs of the Cupuaçu-Cocoa Chain

Author

Andrea Margit, Ailton Fabrício Neto, Adalberto Veríssimo, Carlos A. Nobre, Ismael Nobre, and Maritta Koch-Weser

Subjects

Chain (algebraic topology), Amazon rainforest, Agroforestry, Business

Abstract

Under the Amazon Third Way paradigm and its implementation strategy Amazon 4.0 the Amazon Creative Labs (ACL) were conceived, as a tool for training and for testing proposed concepts. Amazon 4.0 is an attempt to show that it is possible to achieve a stage of high human development combined with valuing of tropical forest through knowledge. This study demonstrates how to add value to value chains of the immense Amazon biodiversity and how to enable Amazonian populations to master bio-industrialization technologies of forest assets. The following example deals with the potential to develop bio-industries in the value chain of two forest products with high potential: cupuaçu and cocoa through the development of the so-called ACL. This will serve as an important experiment to guide several proposals being elaborated by the Scientific Panel for the Amazon.

Published

2021

43. Latin American and Caribbean Forests in the 2020s: Trends, Challenges, and Opportunities

Author

Matt Warren, O. David, Brent Sohngen, Tathiana Bezerra, Raoni Rajão, Julia Arieria, C. Stickler, Juan Robalino, Juan Pablo Ardila, Allen Blackman, Carlos A. Nobre, Dan Nepstad, Bryan Finegan, Rafael Vargas, Simone Bauch, and Nathalia Nascimento

Subjects

Latin Americans, Economy, Political science, Climate change, Illegal logging

Published

2021

44. Amazon Creative Labs of the Cupuaçu-Cocoa Chain

Author

Ismael Nobre, Andrea Margit, Carlos A. Nobre, Maritta Koch-Weser, Adalberto Veríssimo, Ailton Fabrício Neto, Inter-American Development Bank, Ismael Nobre, Andrea Margit, Carlos A. Nobre, Maritta Koch-Weser, Adalberto Veríssimo, Ailton Fabrício Neto, and Inter-American Development Bank

Abstract

Under the Amazon Third Way paradigm and its implementation strategy Amazon 4.0 the Amazon Creative Labs (ACL) were conceived, as a tool for training and for testing proposed concepts. Amazon 4.0 is an attempt to show that it is possible to achieve a stage of high human development combined with valuing of tropical forest through knowledge. This study demonstrates how to add value to value chains of the immense Amazon biodiversity and how to enable Amazonian populations to master bio-industrialization technologies of forest assets. The following example deals with the potential to develop bio-industries in the value chain of two forest products with high potential: cupuaçu and cocoa through the development of the so-called ACL. This will serve as an important experiment to guide several proposals being elaborated by the Scientific Panel for the Amazon.

Published

2021

45. Latin American and Caribbean Forests in the 2020s: Trends, Challenges, and Opportunities

Author

Juan Ardila, Julia Arieira, Simone Bauch, Tathiana Bezerra, Allen Blackman, Olivia David, Bryan Finegan, Nathália Nascimento, Daniel Nepstad, Carlos A. Nobre, Raoni Rajão, Juan Robalino, Brent L. Sohngen, Claudia Stickler, Rafael Vargas, Matt Warren Allen Blackman, Inter-American Development Bank, Juan Ardila, Julia Arieira, Simone Bauch, Tathiana Bezerra, Allen Blackman, Olivia David, Bryan Finegan, Nathália Nascimento, Daniel Nepstad, Carlos A. Nobre, Raoni Rajão, Juan Robalino, Brent L. Sohngen, Claudia Stickler, Rafael Vargas, Matt Warren Allen Blackman, and Inter-American Development Bank

Abstract

This monograph presents expert assessments of four different facets of Latin American and Caribbean (LAC) forests at the start of the 2020s. In Chapter 1, Dan Nepstad and coauthors distill lessons from case studies of the application of various approaches to forest conservation and restoration in four countries: Brazil, Costa Rica, Ecuador, and Peru. In Chapter 2, Carlos Nobre and coauthors examine the two-way links between forests and climate change. They summarize what we know about the effects of climate change on forests and human migration in LAC, and the effects of forest loss and degradation on global and regional climate change. In addition, they present case studies of some of these links for Brazil and Costa Rica. In Chapter 3, Brent Sohngen explores LAC forest management, including LAC trends in international trade in timber and bioenergy, sustainable forest management, nontimber forest products, illegal logging, property rights, and climate change as it affects managed forests. In addition, Dr. Sohngen summarizes an original analysis of future timber supply potential using the Global Timber Model. Finally, in Chapter 4, Simone Bauch presents an analysis of the IADBGs experience with forest projects over the past 13 years. Having reviewed IADBG documents on all 99 forest projects approved by bank during this period and interviewed 23 current and former bank staff, Dr. Bauch presents a brief recent history of IADBG forest projects, an overview of the major determinants of project development, and an analysis of trends in forest projects, including their number, funding, objectives, themes, and locations. An Introduction by the editor, Allen Blackman, discusses the broad issues these expert assessment address and summarizes their key findings.

Published

2021

46. Brazilian Network on Global Climate Change Research (Rede CLIMA)

Author

Eduardo Moraes Arraut, Paulo Nobre, Carlos A. Nobre, and Fabiano M. Scarpa

Subjects

Mudanças Climáticas, Modelagem Do Clima, Impactos, Adaptação e Vulnerabilidade, Mitigação, Ciência Interdisciplinar, Interdisciplinarity science, Environmental sciences, GE1-350

Abstract

A fim de criar o conhecimento científico necessário para o Brasil entender e lidar com as causas e consequências das mudanças climáticas, o governo federal criou, em 2007, a Rede Brasileira de Pesquisa em Mudanças Climáticas Globais (Rede CLIMA). A Rede CLIMA precisa discutir questões, fazer perguntas, desenvolver metodologias e produtos tecnológicos, encontrar respostas e sugerir soluções que sejam relevantes para a sociedade. Em sua primeira fase, a Rede concentrou-se em fornecer infraestrutura e consolidar suas sub-redes. Houve também vários avanços científicos, alguns dos quais são apresentados em seções focadas em modelagem climática, agricultura, energia e água, desenvolvimento e mobilidade humana, biodiversidade e serviços dos ecossistemas, e saúde humana. Agora, em sua segunda fase, o objetivo é estabelecer colaborações entre sub-redes por meio de projetos interdisciplinares. Argumenta-se que, para que tenha sucesso, a Rede precisa fomentar pesquisas de longo-prazo cujo mérito não seja medido apenas pela produção acadêmica.

Published

2013

47. Developing an Aerospace System Software Using PBL and MDA.

Author

João Carlos Silva Nobre, Denis Silva Loubach, and Emilia Colonese

Published

2008

48. Soil fertility of fluvial islands increases with proximity to an Amazonian white-water river

Author

Neto, Gilson de Souza Ferreira, primary, BACCARO, FABRICIO BEGGIATO, additional, QUESADA, CARLOS ALBERTO NOBRE, additional, FIGUEIREDO, AXA SIMÕES, additional, OLIVEIRA, REGISON, additional, GOMES, ERISON, additional, SPIRONELLO, WILSON ROBERTO, additional, and BARNETT, ADRIAN PAUL ASHTON, additional

Published

2021

49. Investing in Nature as the true engine of our economy: A 10-point Action Plan for a Circular Bioeconomy of Wellbeing

Author

Sandrine Dixson-Declève, Enrico Giovannini, Richard G. Wilkinson, Antonio Donato Nobre, Carlos A. Nobre, Michael Ramage, Ida Kubiszewski, Festus K. Akinnifesi, Göran Berndes, Robert Nasi, Luc Bas, Hunter Lovins, Jacqueline McGlade, Katherine Trebeck, Bart Muys, Jennifer Holmgren, Mari Pantsar, Anders Wijkman, Kristin Vala Ragnarsdottir, Robert Costanza, Georgy Safonov, Lorenzo Fioramonti, Jason Snape, Martin Stuchtey, Stewart Wallis, Daniel Ibanez, Kate E. Pickett, Marc Palahí, and Janez Potočnik

Subjects

Action plan, Economics, Economic system, Discount points

Published

2020

50. VALORES DE REFERÊNCIA DA CONCENTRAÇÃO DE METAIS PESADOS EM SOLOS NA AMAZÔNIA CENTRAL

Author

Rebêlo, Ananda Gabrielle de Matos, Monteiro, Maria Terezinha Ferreira, Ferreira, Sávio José Filgueiras, Ríos-Villamizar, Eduardo Antonio, Quesada, Carlos Alberto Nobre, and Duvoisin Junior, Sergio

Subjects

values oriented, complex mixtures, natural contents, metallic elements, tropical ecosystems

Abstract

Considering the size of the Amazon region and the need for studies to establish soil trace metal concentrations in natural environments, the objective of this work was to evaluate heavy metal contents in a toposequence of an Amazon State microbasin. Soil samples were collected in three native forest topographic positions. Samples were opened for analysis by two methods: exchangeable cations were determined by the silver thiourea method and total metal elements by sulfuric acid. The metals were determined by atomic absorption spectrometry. In general, it was observed low concentration of several elements considered essential to plant growth in the studied soils, indicating low concentration in the source material of these soils and the intense weathering leaching. The higher concentrations of heavy metals found in the Plateau / Shed areas may be related to clay soils and more acidic pH than other topographies. Exchangeable Al was found at higher concentrations, while Na was the element with the lowest concentration. Total metallic elements presented higher availability potential in the Plateau / Shed areas, except for B, Cr, Mo and Ni. These differences justify the development of regionalized studies for heavy metals in soils appropriate to the conditions of each environment.

Published

2020