Surface water hydrologic modeling using remote sensing data for natural and disturbed lands

Muche, Muluken Eyayu

January 1900

Doctor of Philosophy / Department of Biological & Agricultural Engineering / Stacy L. Hutchinson / The Soil Conservation Service-Curve Number (SCS-CN) method is widely used to estimate direct runoff from rainfall events; however, the method does not account for the dynamic rainfall-runoff relationship. This study used back-calculated curve numbers (CNs) and Normalized Difference Vegetation Index (NDVI) to develop NDVI-based CNs (CN[subscript]NDV) using four small northeastern Kansas grassland watersheds with average areas of 1 km² and twelve years (2001–2012) of daily precipitation and runoff data. Analysis indicated that the CN[subscript]NDVI model improved runoff predictions compared to the SCS-CN method. The CN[subscript]NDVI also showed greater variability in CNs, especially during growing season, thereby increasing the model’s ability to estimate relatively accurate runoff from rainfall events since most rainfall occurs during the growing season. The CN[subscript]NDVI model was applied to small, disturbed grassland watersheds to assess the model’s ability to detect land cover change impact for military maneuver damage and large, diverse land use/cover watersheds to assess the impact of scaling up the model. CN[subscript]NDVI application was assessed using a paired watershed study at Fort Riley, Kansas. Paired watersheds were identified through k-means and hierarchical-agglomerative clustering techniques. At the large watershed scale, Daymet precipitation was used to estimate runoff, which was compared to direct runoff extracted from stream flow at gauging points for Chapman (grassland dominated) and Upper Delaware (agriculture dominated) watersheds. In large, diverse watersheds, CN[subscript]NDVI performed better in moderate and overall flow years. Overall, CN[subscript]NDVI more accurately simulated runoff compared to SCS-CN results: The calibrated model increased by 0.91 for every unit increase in observed flow (r = 0.83), while standard CN-based flow increased by 0.506 for every unit increase in observed flow (r = 0.404). Therefore, CN[subscript]NDVI could help identify land use/cover changes and disturbances and spatiotemporal changes in runoff at various scales. CN[subscript]NDVI could also be used to accurately estimate runoff from precipitation events in order to instigate more timely land management decisions.

Surface Water Hydrology

Curve Number (CN)

Remote Sensing

Spatiotemporal modeling

Hydrologic Modeling

Examining Culex tarsalis (Diptera: Culicidae) population changes with satellite vegetation index data

Bradford, Jessica

January 1900

Master of Public Health / Department of Diagnostic Medicine/Pathobiology / Michael W. Sanderson / A zoonotic disease is any disease or infection that is naturally transmissible from vertebrate animals to humans. Over 200 zoonoses have been described (Zoonoses and the Human-Animal-Ecosystems Interface, 2013). Many zoonotic viruses are arboviruses, viruses transmitted by an infected, blood-sucking, arthropod vector (Hunt, 2010). There are several endemic arboviruses in the United States; some foreign arboviruses, such as Rift Valley fever (RVF) virus, are potential bioterrorism agents (Dar, 2013). Arboviruses, both endemic and foreign, threaten public health (Gubler, 2002) and therefore disease surveillance, vector control and public education are all vital steps in minimizing arboviral disease impact in the United States. Mosquito-borne disease threats, such as West Nile virus and Rift Valley fever, are constant concerns in the United States and globally. Current strategies to prevent and control mosquito-borne diseases utilize vector distribution, seasonal and daylight timing, and variation in population numbers. Climate factors, such as availability of still water for development of immature mosquitoes, shade, and rainfall, are known to influence population dynamics of mosquitoes. Using 1995-2011 mosquito population surveillance data from Fort Riley, Kansas, we compared population numbers of Culex tarsalis (Diptera: Culicidae), a vector of several arboviruses including West Nile virus and potentially Rift Valley fever, to a satellite-derived index of climate, the Normalized Difference Vegetation Index (NDVI) anomaly. No correlation between the population numbers and NDVI anomaly was observed, which contrasts with results from similar analyses in other locations. These findings suggest a need for continued investigation into mosquito population dynamics in additional ecological regions of the United States to better describe the heterogeneity of environment-population relationships within and among mosquito species.

Culex tarsalis

Rift valley fever

Mosquito population

Parasitology (0718)

Public Health (0573)

Application of NIRS fecal profiling and geostatistics to predict diet quality of African livestock

Awuma, Kosi Semebia

17 February 2005

Near infrared reflectance spectroscopy (NIRS) and geostatistical techniques were used to predict diet quality of sub-Saharan African (SSA) livestock, and to create cokriged estimated diet quality maps for cattle across a landscape. Rations of native vegetation were stall-fed to cattle (Bos indicus), sheep (Ovis aries), and goats (Capra hircus) to generate diet-fecal pair data. Trials were conducted in Ethiopia, Kenya, Uganda, Tanzania, and Ghana. Historical data from Ethiopia, Nigeria, and Niger were included. Diet samples were analyzed for crude protein (CP%), and digestible organic matter (DOM%), while feces were scanned for NIR spectra. NIRS equations were developed from data using modified partial least square (MPLS) regression. Coefficients of determination (R2) of CP for cattle, sheep, and goats were 0.92, 0.95, and 0.97, with corresponding standard errors of calibration (SEC) being 0.90, 0.79, and 0.80, respectively. Standard errors of cross validation (SECV) for CP were 1.12%, 1.08%, and 1.03% for cattle, sheep, and goats, respectively. R2 and SEC values for DOM were 0.88, 0.94, 0.94 and 2.82%, 1.68%, and 2.65%, for cattle, sheep, and goats, respectively. Corresponding SECV values for DOM were 3.26%, 2.07%, and 3.30%, respectively. The statistics reported were within the acceptable limits for NIRS calibrations. The results indicate that dietary CP and DOM of free-ranging SSA livestock can be predicted with the same precision as that of conventional wet chemistry methods. The cattle equation was used to predict cattle fecal samples collected, from February to August 2000, from selected households located within the northern Ghana savanna. The predicted CP% and DOM% were used with Normalized Differential Vegetation Index (NDVI) data, and cokriging technique to create diet quality maps for March and July 2000 for the northern Ghana savanna. Cross validation results indicated a moderate capability of cokriging to estimate predicted CP% for March (r2 = 0.687, SEp = 1.736) and July (r2 = 0.513, SEp = 1.558). Cokriged-estimated DOM value for July was above average (r2 = 0.584, SEp = 3.611), while March DOM% estimation was rather poor (r2 = 0.132, SEp = 3.891). The techniques of cokriging and creation of diet quality maps were moderately successful in this study.

diet quality

fecal profiling

African livestock

cokriging

Application of NIRS fecal profiling and geostatistics to predict diet quality of African livestock

Awuma, Kosi Semebia

17 February 2005

Near infrared reflectance spectroscopy (NIRS) and geostatistical techniques were used to predict diet quality of sub-Saharan African (SSA) livestock, and to create cokriged estimated diet quality maps for cattle across a landscape. Rations of native vegetation were stall-fed to cattle (Bos indicus), sheep (Ovis aries), and goats (Capra hircus) to generate diet-fecal pair data. Trials were conducted in Ethiopia, Kenya, Uganda, Tanzania, and Ghana. Historical data from Ethiopia, Nigeria, and Niger were included. Diet samples were analyzed for crude protein (CP%), and digestible organic matter (DOM%), while feces were scanned for NIR spectra. NIRS equations were developed from data using modified partial least square (MPLS) regression. Coefficients of determination (R2) of CP for cattle, sheep, and goats were 0.92, 0.95, and 0.97, with corresponding standard errors of calibration (SEC) being 0.90, 0.79, and 0.80, respectively. Standard errors of cross validation (SECV) for CP were 1.12%, 1.08%, and 1.03% for cattle, sheep, and goats, respectively. R2 and SEC values for DOM were 0.88, 0.94, 0.94 and 2.82%, 1.68%, and 2.65%, for cattle, sheep, and goats, respectively. Corresponding SECV values for DOM were 3.26%, 2.07%, and 3.30%, respectively. The statistics reported were within the acceptable limits for NIRS calibrations. The results indicate that dietary CP and DOM of free-ranging SSA livestock can be predicted with the same precision as that of conventional wet chemistry methods. The cattle equation was used to predict cattle fecal samples collected, from February to August 2000, from selected households located within the northern Ghana savanna. The predicted CP% and DOM% were used with Normalized Differential Vegetation Index (NDVI) data, and cokriging technique to create diet quality maps for March and July 2000 for the northern Ghana savanna. Cross validation results indicated a moderate capability of cokriging to estimate predicted CP% for March (r2 = 0.687, SEp = 1.736) and July (r2 = 0.513, SEp = 1.558). Cokriged-estimated DOM value for July was above average (r2 = 0.584, SEp = 3.611), while March DOM% estimation was rather poor (r2 = 0.132, SEp = 3.891). The techniques of cokriging and creation of diet quality maps were moderately successful in this study.

diet quality

fecal profiling

African livestock

cokriging

Interpretando padrões espaciais de heterogeneidade funcional de ecossistemas no Rio Grande do Sul : uma abordagem mediante uso de imagens MODIS-LAND

Galindo, Marcela Pinillos

January 2007

O conceito de ‘ecossistema’ emergiu da necessidade de compreender o caráter extremamente dinâmico da vegetação, interpretado a partir daí como o resultado da interação recíproca entre um dado complexo de organismos e seu conjunto amplo de fatores do ambiente físico. Um ramo das ciências ecológicas desenvolveu-se desse conceito, visando examinar o resultado de tais interações em termos de fluxos de energia, matéria e informação. Desenvolvimentos conceituais recentes apontam para uma concepção do ecossistema sob a ótica de um novo paradigma, para o qual aninhamento, hierarquia, decomposabilidade relativa, probabilidade e dependência de escala são critérios chave. Outro desenvolvimento importante, a análise de trajetórias, abriu a possibilidade de tratar a dinâmica e o funcionamento do ecossistema como fenômenos em múltiplas escalas. Incertezas metodológicas e ecológicas decorrem numa visão pouco nítida de como o funcionamento e a estrutura do ecossistema interagem sob a influência de um determinado conjunto de fatores de uso e do ambiente físico. A situação demanda uma abordagem analítica na qual classificações funcionais e estruturais sejam implementadas independentemente, com o fim de estabelecer ‘a posteriori’ quanto e como as classificações estão interconectadas. A tarefa é ainda mais desafiante, em termos de método e interpretação, quando consideramos o contexto hierárquico e complexo em que a análise deve ser feita e a dependência de definição dos resultados. Esta tese refere-se ao desenvolvimento de ferramentas conceituais e metodológicas para analisar a heterogeneidade funcional dos ecossistemas no espaço, em relação a fatores significativos de uso e do ambiente, e aos diferentes tipos de vegetação presentes numa determinada região. Com esse objetivo, adotamos o conceito de ‘Tipos Funcionais de Ecossistemas’ (TFEs), os quais reúnem unidades espaciais com padrão de funcionamento similar, sem considerar seus atributos estruturais, e avançamos num esquema classificatório de TFEs que permite capturar as respostas funcionais de curto prazo dos ecossistemas em cenários de mudanças ambientais e de uso altamente dinâmicas. Também examinamos a sensibilidade dos tipos funcionais de ecossistemas a diferentes definições de funcionamento e parâmetros de escala espacial. Os TFEs provaram ser sensíveis a estas variáveis analíticas, oferecendo assim a possibilidade de indagar a natureza multidimensional e multi-escala dos fenômenos do ecossistema. Os TFEs capturam eficientemente os aspectos mais relevantes da resposta sazonal da vegetação aos fatores do ambiente biofísico, provendo assim uma ferramenta útil para descrever a heterogeneidade espacial do funcionamento dos ecossistemas em domínios temporais e geográficos específicos. Nesta tese avançamos no reconhecimento e descrição dos principais tipos de paisagem no planalto basáltico do Rio Grande do Sul, e propomos mecanismos e controles responsáveis desses padrões característicos. Da associação espacial entre feições do terreno, solos, tipos de uso e vegetação, identificamos três tipos básicos de paisagens e definimos preliminarmente seu domínio espacial. Os resultados descrevem um forte relacionamento entre a distribuição dos grandes tipos fisionômicos de vegetação, os solos e os processos formadores de relevo. Assim sendo, os campos dominam onde relevo e solos indicam a ocorrência de remanescentes de uma antiga superfície de pediplanação, em quanto as florestas prevalecem onde os agentes geomorfológicos têm rejuvenescido a paisagem. Porém, com o objetivo de compreender os processos responsáveis destes padrões, é essencial fazer ‘downscaling’ desde a escala regional na qual os processos formadores de relevo e de solos dominam a diferenciação espacial de variáveis ecológicas, até a escala local na qual fatores biológicos e relacionados com o regime de distúrbio adquirem maior importância na produção de padrões de heterogeneidade espacial. Identificamos que a abordagem ecossistêmica funcional é a maneira mais promissora de relacionar processos de natureza tão divergente. / The ‘ecosystem’ concept emerged from the need for understanding the highly dynamic nature of the vegetation, interpreted from thereon as the reciprocal interaction among the organism-complex and a wide array of factors of the physical environment. A full branch of the ecological sciences developed from this concept, aimed to assessing the outcome of such interactions as flows of energy, matter and information. Recent conceptual developments points to a conception of ecosystem as an entity evolving under the influence of a novel paradigm, for which nestedness, hierarchy, relative decomposability, probability and scale-dependency are central. Another important development, trajectory analysis, opens the possibility to treat ecosystem dynamics and ecosystem functioning as multi-scale phenomena. Methodological and ecological uncertainties determine a rather fuzzy picture of how ecosystem function and structure interplay under the influence of some set of drivers of the physical environment and land use. The whole situation waits for an analytical path to be designed in which functional and structural classifications are carried out independently, in order to establish a posteriori whether they are connected and how they are connected. The task is even more defiant, both in terms of methods and interpretation, if we consider the already complex hierarchical context in which the analysis should be set and the definition-dependency of the outcome. This thesis is about the development of conceptual and analytical tools for analyzing the functional heterogeneity of the ecosystems in the space, in relation to meaningful environmental and land-use factors and to the different types of vegetation present over a given region. To that aim, we adopt the concept of Ecosystem Functional Types (EFTs), which enclose spatial units with similar functional patterns, no attention paid to their structure, and advance on an EFT classificatory scheme that allows capturing the short-term functional response of the ecosystems to environmental and land-use changes. Furthermore, we examine the effect of using different surrogates of ecosystem functioning on the resulting picture of functional patchiness. The effect of changing parameters of spatial scale is also tested. The Ecosystem Functional Types proved to be heavily definition-dependent and sensitive to spatial scale, which allows exploring the multi-dimensional and multi-scale nature of ecosystem phenomena. The EFTs efficiently capture the most relevant features of the seasonal response of the vegetation to the drivers of the biophysical environment, providing so a useful tool for depicting the spatial heterogeneity of ecosystem functioning in a given geographic and temporal domain. In this report we also accomplished the recognition and description of main landscape types in the basaltic tablelands of Rio Grande do Sul, and proposed mechanisms and controls responsible for their characteristic patterns. From the spatial association of terrain features, soils, land-use and vegetation, we identified three basic landscape types and broadly defined their spatial domain. The picture described tells of a rather close relationship among the distribution of the major physiognomic types of the vegetation, soils, land-use and land-forming processes. In this picture, the grasslands prevail where terrain and soil features suggest there are the remnants of an old pediplanation surface, while forests seems to dominate wherever geomorphic agents have rejuvenated the landscape. However, in order to understand the processes responsible of these patterns it is then essential to downscale from the regional realm where terrain and soil-forming phenomena dominate spatial differentiation, to the fine-scale processes at which biological and disturbance-related factors are most influential in the production of patterns of spatial heterogeneity. We identify the functional approach to the ecosystems as the most promising way to correlate processes of such a different nature.

Heterogeneidade

Ecossistemas

Paisagem

Rio Grande do Sul

Ecosystem functional types

Functional heterogeneity

MODIS NDVI

MODIS LAI

MODIS FPAR

Landscape

Spatial patterns

Detecção de áreas degradadas no Município de Mata Grande (AL) com uso de geotecnologias / Detection of degraded areas in the munipality of Mata Grande (AL) using geotechnologies

Santos, José Marcos Alves dos

21 September 2016

Reducing the biodiversity of an environment with activities aimed at animal husbandry, shifting agriculture and self-consumption, and the collection of firewood for domestic consumption and commercialization, leads to soil degradation, which may be through erosion or loss Of fertility. Man has been using this environment for centuries, bringing environmental impacts as a result of this action. This situation is due to the elimination of the total or partial vegetation cover, in association with the inadequate use of the soil, allied to the climatic conditions, with long periods of drought. This situation has been a common scenario in the semi-arid region of Northeast Brazil. Therefore, through these exposures, it was necessary to detect and map degraded areas in the municipality of Mata Grande-AL, using geotechnologies (Remote Sensing and Qgis), which in recent years have acquired a fundamental character for environmental research and monitoring, a Efficient collection and treatment of data and information on natural resources. Through the Normalized Difference Vegetation Index - the vegetative changes occurred in the municipality were evaluated, and an analysis and comparison of the vegetation cover in the soil between the periods of 2013 to 2016 with images of the days, 10/12/2013, 11/27/2014, 11/14/2015 and 01/01/2016. Human activities are either directly or indirectly, and adverse climatic conditions are the main degradation factors in the study area, which characterized in the analyzed images a high percentage of exposed soil and low vegetation cover. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A redução da biodiversidade de um ambiente com atividades voltadas à criação de animais, agricultura itinerante e de autoconsumo e à coleta de lenha para consumo doméstico e comercialização, traz como consequência a degradação dos solos, que pode ser por meio do processo de erosão ou perda de fertilidade. O homem vem utilizando esse ambiente há séculos, trazendo como resultados dessa ação, impactos ambientais. Essa situação é decorrente da eliminação da cobertura vegetal, total ou parcial, em associação com o uso inadequado do solo, aliados às condições climáticas, com longos períodos de estiagem. Situação que tem sido um cenário comum na região semiárida do Nordeste brasileiro. Portanto, através desse exposto, houve a necessidade de se detectar e mapear áreas degradadas no Município de Mata Grande (AL), com uso de geotecnologias (Sensoriamento Remoto e Qgis), que nos últimos anos, adquiriram caráter fundamental para pesquisas e monitoramentos ambientais, uma vez que possibilitam com eficiência a obtenção e tratamento de elevada quantidade de dados e informações sobre recursos naturais. Através do Índice de Vegetação por Diferença Normalizada - NDVI, avaliou-se as mudanças vegetativas ocorridas no município, podendo assim ser feita uma análise e comparação da cobertura da vegetação no solo, entre os períodos de 2013 a 2016 com imagens dos dias, 10/12/2013, 27/11/2014, 14/11/2015 e 01/01/2016. As atividades antrópicas (humanas) sejam direta ou indiretamente e as condições adversas, (climáticas), são os principais fatores de degradação na área de estudo, que caracterizaram nas imagens analisadas um elevado percentual de solo exposto e baixa cobertura da vegetação.

Meio ambiente

Degradação

Impactos ambientais

Sensoriamento remoto

NDVI

Environment

Degradation

Environmental impacts

Remote sensing

Detecção de áreas degradadas no município de Mata Grande – AL com uso de geotecnologias / Detection of degraded areas in the municipality of Mata Grande (AL) using geotechnologies

Santos, José Marcos Alves dos

21 September 2016

Reducing the biodiversity of an environment with activities aimed at animal husbandry, shifting agriculture and self-consumption, and the collection of firewood for domestic consumption and commercialization, leads to soil degradation, which may be through erosion or loss Of fertility. Man has been using this environment for centuries, bringing environmental impacts as a result of this action. This situation is due to the elimination of the total or partial vegetation cover, in association with the inadequate use of the soil, allied to the climatic conditions, with long periods of drought. This situation has been a common scenario in the semi-arid region of Northeast Brazil. Therefore, through these exposures, it was necessary to detect and map degraded areas in the municipality of Mata Grande-AL, using geotechnologies (Remote Sensing and Qgis), which in recent years have acquired a fundamental character for environmental research and monitoring, a Efficient collection and treatment of data and information on natural resources. Through the Normalized Difference Vegetation Index - the vegetative changes occurred in the municipality were evaluated, and an analysis and comparison of the vegetation cover in the soil between the periods of 2013 to 2016 with images of the days, 10/12/2013, 11/27/2014, 11/14/2015 and 01/01/2016. Human activities are either directly or indirectly, and adverse climatic conditions are the main degradation factors in the study area, which characterized in the analyzed images a high percentage of exposed soil and low vegetation cover. / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A redução da biodiversidade de um ambiente com atividades voltadas à criação de animais, agricultura itinerante e de autoconsumo e à coleta de lenha para consumo doméstico e comercialização, traz como consequência a degradação dos solos, que pode ser por meio do processo de erosão ou perda de fertilidade. O homem vem utilizando esse ambiente há séculos, trazendo como resultados dessa ação, impactos ambientais. Essa situação é decorrente da eliminação da cobertura vegetal, total ou parcial, em associação com o uso inadequado do solo, aliados às condições climáticas, com longos períodos de estiagem. Situação que tem sido um cenário comum na região semiárida do Nordeste brasileiro. Portanto, através desse exposto, houve a necessidade de se detectar e mapear áreas degradadas no Município de Mata Grande (AL), com uso de geotecnologias (Sensoriamento Remoto e Qgis), que nos últimos anos, adquiriram caráter fundamental para pesquisas e monitoramentos ambientais, uma vez que possibilitam com eficiência a obtenção e tratamento de elevada quantidade de dados e informações sobre recursos naturais. Através do Índice de Vegetação por Diferença Normalizada -, avaliou-se as mudanças vegetativas ocorridas no município, podendo assim ser feita uma análise e comparação da cobertura da vegetação no solo, entre os períodos de 2013 a 2016 com imagens dos dias, 10/12/2013, 27/11/2014, 14/11/2015 e 01/01/2016. As atividades antrópicas (humanas) sejam direta ou indiretamente e as condições adversas, (climáticas), são os principais fatores de degradação na área de estudo, que caracterizaram nas imagens analisadas um elevado percentual de solo exposto e baixa cobertura da vegetação. NDVI

Meio ambiente

Degradação

Impactos ambientais

Sensoriamento remote

Environment

Degradation

Environmental Impacts

Remote Sensing

NDVI

Avaliação da dinâmica espectro-temporal visando o mapeamento da soja e arroz irrigado no Rio Grande do Sul / Evaluation of dynamic spectral-temporal targeting mapping of soybean and irrigated rice in Rio Grande do Sul

Mengue, Vagner Paz

January 2013

Uma das atividades mais relevantes para a economia brasileira é a agricultura. Entre os produtos de maior importância no cenário agrícola nacional, estão a soja e o arroz, os quais representam uma grande parcela da produção. Somente o Estado do Rio Grande do Sul é responsável por aproximadamente 67% da produção nacional de arroz e 10% de soja (IBGE, 2012). Portanto, informações confiáveis sobre a produção agrícola são relevantes para o desenvolvimento do setor e o desenvolvimento de metodologias capazes de auxiliar no monitoramento das áreas agrícolas torna-se peça importante na geração de dados confiáveis e com maior rapidez de obtenção. Desta forma, o objetivo deste trabalho foi desenvolver uma metodologia de baixo custo para a execução do mapeamento da área cultivada de arroz irrigado e soja, em escala municipal e estadual, baseado na análise do comportamento espectro-temporal de índices de vegetação de imagens de satélite de alta resolução temporal. O estudo foi realizado no Estado do Rio Grande do Sul, abrangendo os 497 municípios no ano safra 2011/2012. Para realizar o estudo, foram utilizadas imagens multitemporais do sensor MODIS, índices de vegetação EVI e NDVI. Foi aplicado o modelo HAND para gerar as áreas de inundação, as quais foram utilizadas para discriminar a cultura do arroz irrigado de outras culturas, especialmente a soja. Para avaliar os resultados foram utilizados como dados de referência, os dados coletados a campo, dados de área cultivada do IBGE e dados do mapeamento gerados a partir de imagens do satélite RapidEye. Os resultados mostraram que a metodologia proposta foi satisfatória, com valores médios do índice Kappa de 0,90 para a cultura de arroz irrigado e de 0,84 para a soja. Não houve diferença significativa entre as estimativas de área cultivada utilizando os dados EVI e NDVI para ambas as culturas. A utilização do Modelo HAND para discriminar o arroz irrigado de outros cultivos, mostrou-se muito eficiente, separando as áreas de várzea, que são mais aptas para o cultivo de arroz irrigado. Apesar dos resultados terem sido considerados como satisfatórios alguns municípios apresentaram problemas de subestimação ou superestimação quando foram comparados com os dados oficiais do IBGE. Esses problemas podem estar relacionados ao caráter subjetivo de aquisição de dados por parte do IBGE e também o fato de ter sido utilizada para a validação dos dados da safra 2011/2012 a média das últimas três safras, podendo desta maneira ter fragilizado ou comprometido os resultados para alguns municípios. Portanto, técnicas de sensoriamento remoto e geoprocessamento podem ser úteis no auxilio dos atuais métodos de monitoramento e mapeamento de culturas agrícolas, melhorando as estatísticas oficiais do arroz irrigado e soja. / One of the most relevant activities for the Brazilian economy is agriculture. Among the products of greatest importance in the national agricultural, are soybeans and rice, which represent a large portion of the production. Only the State of Rio Grande do Sul is responsible for approximately 67% of the national rice production and 10% of soybean (IBGE, 2012). Therefore, reliable information on agricultural production are relevant to the development of the sector and the development of methodologies capable of assist in the monitoring of agricultural areas becomes important part in the generation of reliable data and faster of obtaining. Thus, the objective of this work was to develop a methodology of low cost to implement the mapping of acreage irrigated rice and soybeans, at the municipal and state levels, based on the analysis of the spectral-temporal behavior of vegetation indices from satellite images high temporal resolution. The study was conducted in the state of Rio Grande do Sul, covering 497 municipalities in crop year 2011/2012. To conduct the study, images were used multitemporal MODIS vegetation indices EVI and NDVI. HAND model was applied to generate the inundation areas, which were used to discriminate the rice culture of other crops, especially soybeans. To evaluate the results were used as reference data, data collected in the field, the cultivated area data from the IBGE and mapping data generated from satellite images RapidEye. The results show that the proposed method was satisfactory, with mean values of Kappa 0.90 for irrigated rice and 0.84 for soybeans. There was no significant difference between the estimates of acreage using EVI and NDVI data for both crops. The use of the HAND model to discriminate irrigated rice from other crops, was very efficient, separating the lowland areas, which are more suitable for the cultivation of irrigated rice. Although the results were considered satisfactory as some municipalities had problems underestimation or overestimation when they were compared with the official data. These problems may be related to the subjective nature of data acquisition by the IBGE and the fact of having been used for the validation of data from 2011/2012 season the average of the last three years, and may in this way be weakened or compromised results for some municipalities. Therefore, techniques of remote sensing and GIS can be useful in the aid of the current methods of monitoring and mapping of agricultural crops, improving the official statistics of irrigated rice and soybeans.

Previsao de safra

Arroz irrigado

Soja

Mapeamento ambiental

Image MODIS EVI/NDVI

HAND model

Remote sensing

Crop forecasting

Interpretando padrões espaciais de heterogeneidade funcional de ecossistemas no Rio Grande do Sul : uma abordagem mediante uso de imagens MODIS-LAND

Galindo, Marcela Pinillos

January 2007

O conceito de ‘ecossistema’ emergiu da necessidade de compreender o caráter extremamente dinâmico da vegetação, interpretado a partir daí como o resultado da interação recíproca entre um dado complexo de organismos e seu conjunto amplo de fatores do ambiente físico. Um ramo das ciências ecológicas desenvolveu-se desse conceito, visando examinar o resultado de tais interações em termos de fluxos de energia, matéria e informação. Desenvolvimentos conceituais recentes apontam para uma concepção do ecossistema sob a ótica de um novo paradigma, para o qual aninhamento, hierarquia, decomposabilidade relativa, probabilidade e dependência de escala são critérios chave. Outro desenvolvimento importante, a análise de trajetórias, abriu a possibilidade de tratar a dinâmica e o funcionamento do ecossistema como fenômenos em múltiplas escalas. Incertezas metodológicas e ecológicas decorrem numa visão pouco nítida de como o funcionamento e a estrutura do ecossistema interagem sob a influência de um determinado conjunto de fatores de uso e do ambiente físico. A situação demanda uma abordagem analítica na qual classificações funcionais e estruturais sejam implementadas independentemente, com o fim de estabelecer ‘a posteriori’ quanto e como as classificações estão interconectadas. A tarefa é ainda mais desafiante, em termos de método e interpretação, quando consideramos o contexto hierárquico e complexo em que a análise deve ser feita e a dependência de definição dos resultados. Esta tese refere-se ao desenvolvimento de ferramentas conceituais e metodológicas para analisar a heterogeneidade funcional dos ecossistemas no espaço, em relação a fatores significativos de uso e do ambiente, e aos diferentes tipos de vegetação presentes numa determinada região. Com esse objetivo, adotamos o conceito de ‘Tipos Funcionais de Ecossistemas’ (TFEs), os quais reúnem unidades espaciais com padrão de funcionamento similar, sem considerar seus atributos estruturais, e avançamos num esquema classificatório de TFEs que permite capturar as respostas funcionais de curto prazo dos ecossistemas em cenários de mudanças ambientais e de uso altamente dinâmicas. Também examinamos a sensibilidade dos tipos funcionais de ecossistemas a diferentes definições de funcionamento e parâmetros de escala espacial. Os TFEs provaram ser sensíveis a estas variáveis analíticas, oferecendo assim a possibilidade de indagar a natureza multidimensional e multi-escala dos fenômenos do ecossistema. Os TFEs capturam eficientemente os aspectos mais relevantes da resposta sazonal da vegetação aos fatores do ambiente biofísico, provendo assim uma ferramenta útil para descrever a heterogeneidade espacial do funcionamento dos ecossistemas em domínios temporais e geográficos específicos. Nesta tese avançamos no reconhecimento e descrição dos principais tipos de paisagem no planalto basáltico do Rio Grande do Sul, e propomos mecanismos e controles responsáveis desses padrões característicos. Da associação espacial entre feições do terreno, solos, tipos de uso e vegetação, identificamos três tipos básicos de paisagens e definimos preliminarmente seu domínio espacial. Os resultados descrevem um forte relacionamento entre a distribuição dos grandes tipos fisionômicos de vegetação, os solos e os processos formadores de relevo. Assim sendo, os campos dominam onde relevo e solos indicam a ocorrência de remanescentes de uma antiga superfície de pediplanação, em quanto as florestas prevalecem onde os agentes geomorfológicos têm rejuvenescido a paisagem. Porém, com o objetivo de compreender os processos responsáveis destes padrões, é essencial fazer ‘downscaling’ desde a escala regional na qual os processos formadores de relevo e de solos dominam a diferenciação espacial de variáveis ecológicas, até a escala local na qual fatores biológicos e relacionados com o regime de distúrbio adquirem maior importância na produção de padrões de heterogeneidade espacial. Identificamos que a abordagem ecossistêmica funcional é a maneira mais promissora de relacionar processos de natureza tão divergente. / The ‘ecosystem’ concept emerged from the need for understanding the highly dynamic nature of the vegetation, interpreted from thereon as the reciprocal interaction among the organism-complex and a wide array of factors of the physical environment. A full branch of the ecological sciences developed from this concept, aimed to assessing the outcome of such interactions as flows of energy, matter and information. Recent conceptual developments points to a conception of ecosystem as an entity evolving under the influence of a novel paradigm, for which nestedness, hierarchy, relative decomposability, probability and scale-dependency are central. Another important development, trajectory analysis, opens the possibility to treat ecosystem dynamics and ecosystem functioning as multi-scale phenomena. Methodological and ecological uncertainties determine a rather fuzzy picture of how ecosystem function and structure interplay under the influence of some set of drivers of the physical environment and land use. The whole situation waits for an analytical path to be designed in which functional and structural classifications are carried out independently, in order to establish a posteriori whether they are connected and how they are connected. The task is even more defiant, both in terms of methods and interpretation, if we consider the already complex hierarchical context in which the analysis should be set and the definition-dependency of the outcome. This thesis is about the development of conceptual and analytical tools for analyzing the functional heterogeneity of the ecosystems in the space, in relation to meaningful environmental and land-use factors and to the different types of vegetation present over a given region. To that aim, we adopt the concept of Ecosystem Functional Types (EFTs), which enclose spatial units with similar functional patterns, no attention paid to their structure, and advance on an EFT classificatory scheme that allows capturing the short-term functional response of the ecosystems to environmental and land-use changes. Furthermore, we examine the effect of using different surrogates of ecosystem functioning on the resulting picture of functional patchiness. The effect of changing parameters of spatial scale is also tested. The Ecosystem Functional Types proved to be heavily definition-dependent and sensitive to spatial scale, which allows exploring the multi-dimensional and multi-scale nature of ecosystem phenomena. The EFTs efficiently capture the most relevant features of the seasonal response of the vegetation to the drivers of the biophysical environment, providing so a useful tool for depicting the spatial heterogeneity of ecosystem functioning in a given geographic and temporal domain. In this report we also accomplished the recognition and description of main landscape types in the basaltic tablelands of Rio Grande do Sul, and proposed mechanisms and controls responsible for their characteristic patterns. From the spatial association of terrain features, soils, land-use and vegetation, we identified three basic landscape types and broadly defined their spatial domain. The picture described tells of a rather close relationship among the distribution of the major physiognomic types of the vegetation, soils, land-use and land-forming processes. In this picture, the grasslands prevail where terrain and soil features suggest there are the remnants of an old pediplanation surface, while forests seems to dominate wherever geomorphic agents have rejuvenated the landscape. However, in order to understand the processes responsible of these patterns it is then essential to downscale from the regional realm where terrain and soil-forming phenomena dominate spatial differentiation, to the fine-scale processes at which biological and disturbance-related factors are most influential in the production of patterns of spatial heterogeneity. We identify the functional approach to the ecosystems as the most promising way to correlate processes of such a different nature.

Heterogeneidade

Ecossistemas

Paisagem

Rio Grande do Sul

Ecosystem functional types

Functional heterogeneity

MODIS NDVI

MODIS LAI

MODIS FPAR

Landscape

Spatial patterns

Determinação da biomassa vegetal e parâmetros ambientais associados na chapada do Araripe por imagem de satélite.

SILVA, João Alvino Sampaio da

17 July 2018

Submitted by Maria Medeiros (maria.dilva1@ufcg.edu.br) on 2018-07-17T11:51:55Z No. of bitstreams: 1 JOÃO ALVINO SAMPAIO DA SILVA - DISSERTAÇÃO (PPGMET) 2013.pdf: 8549821 bytes, checksum: 8d11d13bc0cf49c7310914618d846291 (MD5) / Made available in DSpace on 2018-07-17T11:51:55Z (GMT). No. of bitstreams: 1 JOÃO ALVINO SAMPAIO DA SILVA - DISSERTAÇÃO (PPGMET) 2013.pdf: 8549821 bytes, checksum: 8d11d13bc0cf49c7310914618d846291 (MD5) Previous issue date: 2013-10-31 / O objetivo deste trabalho foi determinar e avaliar o comportamento anual do acúmulo de biomassa vegetal na Chapada do Araripe, a partir de dados do satélite Landsat 5-TM, com a combinação dos algoritmos SEBAL e CASA. Para a realização deste estudo foram obtidas 6 imagens, na órbita 217/ponto 65, nas datas de 30/07/2006, 18/08/2007, 21/09/2008, 24/09/2009, 13/10/2010, 29/08/2011 a que correspondem aos DJ de 211, 230, 264, 267, 286, 241, respectivamente. Avaliando a biomassa vegetal acumulada (Bio_Acum), obteve-se valores médios para a área de estudo iguais a 453,07 kg m-2, 486,50 kg m-2, 457,23 kg m-2, 571,82 kg m-2, 178,16 kg m-2 e 279,09 kg m-2, respectivamente para as referidas datas. Os elevados valores para a Bio_Acum na Chapada do Araripe, se deve ao fato de que a área com cobertura de árvores é responsável por aproximadamente 70% da biomassa estimada, onde o índice de vegetação por diferença normalizada (NDVI) é superior a 0,65. / The objective of this study was to determine and evaluate the annual performance of the accumulation of plant biomass in the Araripe, data from Landsat-5 TM, with the combination of algorithms SEBAL and CASA. For this study 6 images were obtained, in orbit 217/65 point, on the dates of 30/07/2006, 18/08/2007, 21/09/2008, 24/09/2009, 13/10/2010, 29/08/2011 corresponding to the DJ 211, 230, 264, 267, 286, 241, respectively. Evaluating plant biomass accumulated (Bio_Acum) gave average values for the area equal to 453.07 kg m-2 486.50 kg m-2 study, 457.23 kg m-2 571.82 kg m-2, 178.16 kg m-2 and 279.09 kg m-2, respectively, for these dates. The high values for the Bio_Acum Araripe, is due to the fact that the coverage area of trees is responsible for approximately 70% of the estimated biomass, where the vegetation index (NDVI) is greater than 0.65.

Meteorologia

Landsat 5

Floresta Nacional do Araripe

NDVI

Araripe National Forest

Biomassa Vegetal

Plant Biomass

Monitoramento por satélite

Sensoriamento remoto