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Amazonia and Global Change. (2009)

Keller, Michael.

Newark :American Geophysical Union,

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Keywords: Climatic changes -- Amazon River Region. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (576 pages)

Edition: 1st ed.

ISBN: 9781118672365

Series Statement: Geophysical Monograph Series ; v.186

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=1184226

DDC: 577.34/1409811

Language: English

Note: Intro -- Title Page -- Contents -- Preface -- Section I: People and Land Change -- People and Environment in Amazonia: The LBA Experience and Other Perspectives -- The Changing Rates and Patterns of Deforestation and Land Use in Brazilian Amazonia -- Selective Logging and Its Relation to Deforestation -- The Spatial Distribution and Interannual Variability of Fire in Amazonia -- The Expansion of Intensive Agriculture and Ranching in Brazilian Amazonia -- Scenarios of Future Amazonian Landscapes: Econometric and Dynamic Simulation Models -- Road Impacts in Brazilian Amazonia -- Small Farmers and Deforestation in Amazonia -- Section II: Atmosphere and Climate -- Understanding the Climate of Amazonia: Progress From LBA -- Characteristics of Amazonian Climate: Main Features -- The Amazonian Boundary Layer and Mesoscale Circulations -- Natural Volatile Organic Compound Emissions From Plants and Their Roles in Oxidant Balance and Particle Formation -- Biomass Burning in Amazonia: Emissions, Long-Range Transport of Smoke and Its Regional and Remote Impacts -- Aerosol Particles in Amazonia: Their Composition, Role in the Radiation Balance, Cloud Formation, and Nutrient Cycles -- Modeling the Regional and Remote Climatic Impact of Deforestation -- Evapotranspiration -- Global Warming and Climate Change in Amazonia: Climate-Vegetation Feedback and Impacts on Water Resources -- Section III: Terrestrial Ecosystems -- Biogeochemistry and Ecology of Terrestrial Ecosystems of Amazonia -- Nutrient Limitations to Secondary Forest Regrowth -- The Maintenance of Soil Fertility in Amazonian Managed Systems -- Sources and Sinks of Trace Gases in Amazonia and the Cerrado -- The Production, Storage, and Flow of Carbon in Amazonian Forests -- Changes in Amazonian Forest Biomass, Dynamics, and Composition, 1980-2002. , Ecosystem Carbon Fluxes and Amazonian Forest Metabolism -- The Regional Carbon Budget -- The Effects of Drought on Amazonian Rain Forests -- Soil Carbon Dynamics -- Ecophysiology of Forest and Savanna Vegetation -- Section IV: Surface Water -- Surface Waters in Amazonia: Key Findings and Perspectives -- The Role of Rivers in the Regional Carbon Balance -- Water and Chemical Budgets at the Catchment Scale Including Nutrient Exports From Intact Forests and Disturbed Landscapes -- Floodplain Ecosystem Processes -- Effects of Climatic Variability and Deforestation on Surface Water Regimes -- Section V: Conclusions and Vision for the Future -- Results From LBA and a Vision for Future Amazonian Research -- Index.

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Land surface phenological archetypes of the Brazilian Savanna (Cerrado) (2024)

Schwieder, Marcel ; Leitão, Pedro J ; Bendini, Hugo N ; [et al.]

PANGAEA

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Publication Date: 2024-07-19

Description: Phenology is the study of reoccurring events during a year or season. It can be linked to the behavior of animals, such as phases of mating, breeding, or movement and to events such as green-up, bud burst, flowering, or senescence when referring to vegetation, as a response to changing environmental factors throughout a season. While these changes can be tracked on the level of individual species, their observation is usually restricted to small spatial extents. To broaden the extent of the observed area remote sensing data have been proven useful. As remote sensing data capture the seasonal change rather on a pixel than on a species level, they enable to analyze the phenology of the observed vegetation on a different scale, which is known as land surface phenology. Land surface phenological metrics that can, for example, be derived from time series of vegetation indices, allow to analyze the observed spatial and temporal patterns in relation to ecosystem processes (e.g., primary productivity). Subsequently, the derived metrics can be grouped based on their similarities into land surface phenological archetypes (LSP), defined as areas with comparable phenologies. However, the spatial resolution of the data used is crucial, which becomes even more critical when looking at heterogeneous ecosystems such as the Brazilian savanna, known as the Cerrado. The Cerrado covers an extent of approximately 2 mio. km², hosts many endemic species and is considered as a biodiversity hotspot that provides several ecosystem services of national and even global importance. However, due to a lack of extensive conservation regulations the Cerrado is prone to land cover changes for agricultural expansion, highlighting the need for detailed mapping and monitoring approaches. To reveal and analyze the spatial patterns of the remaining share of natural vegetation based on their land surface phenology, we analyzed a dense 8-day time series of combined enhanced vegetation data derived from Landsat 7 ETM+ and Landsat 8 images. Data gaps that were due to cloud contamination or sensor errors were filled using a radial basis convolution filter, enabling to subsequently derive phenological metrics for the season 2013/2014 using TIMESAT (Eklundh and Jönsson 2017). As these variables, such as start and end of season, amplitude or the base value, relate to the seasonality and primary productivity of the observed vegetation, we clustered them based on their similarities and defined 8 land surface phenological archetypes (LSP) of the Cerrado. The GeoTiff file contains the 8 LSPs that are explained in detail in Schwieder et al. in prep. For further questions please contact Marcel Schwieder. Class labels: 0 = Unclassified 1 = FORMBMS 2 = SAFORMS 3 = FORHBLS 4 = GLSAVLB 5 = GLSAVHB 6 = FORHBHS 7 = VEGINMS 8 = VEGINLS

Keywords: Cerrado; Cerrado_ecosystem_funct_types; Conservation; Land surface phenology; remote sensing; SAT; Satellite remote sensing; Timesat

Type: dataset

Format: image/tiff, 365.1 MBytes

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Pasture degradation in the central Amazon: linking changes in carbon and nutrient cycling with remote sensing (2004)

Asner, Gregory P. ; Townsend, Alan R. ; Bustamante, Mercedes M. C. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Global change biology 10 (2004), S. 0

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ISSN: 1365-2486

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology , Energy, Environment Protection, Nuclear Power Engineering , Geography

Notes: The majority of deforested land in the Amazon Basin has become cattle pasture, making forest-to-pasture conversion an important contributor to the carbon (C) and climate dynamics of the region. However, our understanding of biogeochemical dynamics in pasturelands remains poor, especially when attempting to scale up predictions of C cycle changes. A wide range of pasture ages, soil types, management strategies, and climates make remote sensing the only realistic means to regionalize our understanding of pasture biogeochemistry and C cycling over such an enormous geographic area. However, the use of remote sensing has been impeded by a lack of effective links between variables that can be observed from satellites (e.g. live and senescent biomass) and variables that cannot be observed, but which may drive key changes in C storage and trace gas fluxes (e.g. soil nutrient status). We studied patterns in canopy biophysical–biochemical properties and soil biogeochemical processes along pasture age gradients on two important soil types in the central Amazon. Our goals were to (1) improve our understanding of the plot-scale biogeochemical dynamics of this land-use change, (2) evaluate the effects of pasture development on two contrasting soil types (clayey Oxisols and sandy Entisols), and (3) attempt to use remotely sensed variables to scale up the site-specific variability in biogeochemical conditions of pasturelands.The biogeochemical analyses showed that (1) aboveground and soil C stocks decreased with pasture age on both clayey and sandy soils, (2) declines in plant biomass were well correlated with declines in soil C and with available phosphorus (P) and calcium (Ca), and (3) despite low initial values for total and available soil P, ecosystem P stocks declined further with pasture age, as did a number of other nutrients. Spectral mixture analysis of Landsat imagery provided estimates of photosynthetic vegetation (PV) and non-photosynthetic vegetation (NPV) that were highly correlated with field measurements of these variables and plant biomass. In turn, the remotely sensed sum PV+NPV was well correlated with the changes in soil organic carbon and nitrogen, and available P and Ca. These results suggest that remote sensing can be an excellent indicator of not only pasture area, but of pasture condition and C storage, thereby greatly improving regional estimates of the environmental consequences of such land-use change.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1529-8817.2003.00766.x

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Ten new insights in climate science 2021 – a horizon scan (2021)

Martin, Maria A. ; Sendra, Olga Alcaraz ; Bastos, Ana ; [et al.]

Cambridge Univ. Press

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Publication Date: 2024-02-07

Type: Article , PeerReviewed

Format: text

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OceanRep: Article in a Scientific Journal - peer-reviewed

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Technical summary (2016)

Edenhofer, Ottmar ; Pichs-Madruga, Ramon ; Kadner, Susanne ; [et al.]

Geneva : Intergovernmental Panel of Climate Change

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Publication Date: 2019-04-01

Keywords: ddc:300

Repository Name: Wuppertal Institut für Klima, Umwelt, Energie

Language: English

Type: bookpart , doc-type:bookPart

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Ten new insights in climate science 2023 (2023)

Bustamante, Mercedes ; Roy, Joyashree ; Ospina, Daniel ; [et al.]

Cambridge University Press (CUP)

In: EPIC3Global Sustainability, Cambridge University Press (CUP), 7, pp. e19-e19, ISSN: 2059-4798

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Publication Date: 2024-06-11

Description: Non-technical summary. We identify a set of essential recent advances in climate change research with high policy relevance, across natural and social sciences: (1) looming inevitability and implications of overshooting the 1.5°C warming limit, (2) urgent need for a rapid and managed fossil fuel phase-out, (3) challenges for scaling carbon dioxide removal, (4) uncertainties regarding the future contribution of natural carbon sinks, (5) intertwinedness of the crises of biodiversity loss and climate change, (6) compound events, (7) mountain glacier loss, (8) human immobility in the face of climate risks, (9) adaptation justice, and (10) just transitions in food systems. Technical summary. The Intergovernmental Panel on Climate Change Assessment Reports provides the scientific foundation for international climate negotiations and constitutes an unmatched resource for researchers. However, the assessment cycles take multiple years. As a contribution to cross- and interdisciplinary understanding of climate change across diverse research communities, we have streamlined an annual process to identify and synthesize significant research advances. We collected input from experts on various fields using an online questionnaire and prioritized a set of 10 key research insights with high policy relevance. This year, we focus on: (1) the looming overshoot of the 1.5°C warming limit, (2) the urgency of fossil fuel phase-out, (3) challenges to scale-up carbon dioxide removal, (4) uncertainties regarding future natural carbon sinks, (5) the need for joint governance of biodiversity loss and climate change, (6) advances in understanding compound events, (7) accelerated mountain glacier loss, (8) human immobility amidst climate risks, (9) adaptation justice, and (10) just transitions in food systems. We present a succinct account of these insights, reflect on their policy implications, and offer an integrated set of policy-relevant messages. This science synthesis and science communication effort is also the basis for a policy report contributing to elevate climate science every year in time for the United Nations Climate Change Conference. Social media summary. We highlight recent and policy-relevant advances in climate change research – with input from more than 200 experts.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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