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Julgue o item a seguir, considerando a utilização de bioinsumos e de novas tecnologias para o desenvolvimento de cadeias produtivas, frente às mudanças climáticas.
A crise climática atual provoca o aparecimento de novas doenças, como zoonoses transmissíveis entre seres humanos e animais.
Julgue o item a seguir, considerando a utilização de bioinsumos e de novas tecnologias para o desenvolvimento de cadeias produtivas, frente às mudanças climáticas.
O trigo, o triticale, a cana-do-reino, o bambu e o agave são novas matérias-primas propostas para a produção de biocombustíveis na cadeia produtiva do etanol, pois são todas espécies ricas em açúcares, amidos ou celulose.
Julgue o item a seguir, considerando a utilização de bioinsumos e de novas tecnologias para o desenvolvimento de cadeias produtivas, frente às mudanças climáticas.
Os bioinsumos são integrados em práticas certificadas e remuneradas com créditos de carbono negociados na Bolsa de Valores de Nova Iorque.
Julgue o item a seguir, considerando a utilização de bioinsumos e de novas tecnologias para o desenvolvimento de cadeias produtivas, frente às mudanças climáticas.
Os bioinsumos são produtos essenciais como alternativas aos produtos derivados de fontes fósseis, pois adaptam as culturas às mudanças climáticas e também contribuem para a redução das emissões de gases de efeito estufa.
Julgue o item a seguir, considerando a utilização de bioinsumos e de novas tecnologias para o desenvolvimento de cadeias produtivas, frente às mudanças climáticas.
A agricultura de precisão se apoia no emprego de GPS, na automação e na análise de dados para otimizar o uso de recursos, como água, fertilizantes e pesticidas, reduzindo-se custos e minimizando-se o impacto ambiental.
Julgue o item seguinte, a respeito das estruturas de dados e de bancos de dados e da análise de dados.
No modelo relacional, os dados são organizados no banco em uma estrutura hierárquica, onde cada registro possui um único registro pai, o que facilita a navegação em árvores de dados.
Julgue o item seguinte, a respeito das estruturas de dados e de bancos de dados e da análise de dados.
Nos bancos de dados orientados a documentos, os dados são armazenados em documentos JSON, com um esquema flexível sem a necessidade de definição prévia.
Julgue o item seguinte, a respeito das estruturas de dados e de bancos de dados e da análise de dados.
Na análise de dados, algoritmos de aprendizado de máquina realizam todas as etapas do processo, eliminando a necessidade de qualquer intervenção humana na interpretação dos resultados.
Julgue o item seguinte, a respeito das estruturas de dados e de bancos de dados e da análise de dados.
Os registros são utilizados exclusivamente para armazenar dados numéricos, enquanto as variáveis simples podem armazenar qualquer tipo de dado, como números, caracteres e strings.
No processo de análise de dados, uma das etapas é a análise exploratória, que visa à identificação de padrões e possíveis tendências.
Acerca da Agricultura 5.0, e temas a ela relacionados, julgue o item subsequente.
Um data warehouse pode ser empregado para armazenar dados históricos de diversas fontes, o que permite análises de longo prazo e a identificação de tendências sazonais que apoiam a estratégia de cultivo.
Acerca da Agricultura 5.0, e temas a ela relacionados, julgue o item subsequente.
Embora as técnicas de mineração de dados possam identificar padrões nos dados, elas não são eficazes na detecção de anomalias e falhas nos sistemas agrícolas.
Acerca da Agricultura 5.0, e temas a ela relacionados, julgue o item subsequente.
A utilização de tecnologias Big Data permite processar grandes volumes de dados em tempo real, o que viabiliza análises imediatas para a tomada de decisões operacionais na gestão das plantações.
Acerca da Agricultura 5.0, e temas a ela relacionados, julgue o item subsequente.
A implementação de IoT na agricultura se limita à coleta de dados de umidade do solo, restringindo o monitoramento e a análise de outras variáveis ambientais importantes.
Acerca da Agricultura 5.0, e temas a ela relacionados, julgue o item subsequente.
O aprendizado de máquina possibilita o desenvolvimento de modelos preditivos robustos que estimam o rendimento das colheitas e antecipam necessidades de intervenção, como ajustes no sistema de irrigação.
A respeito do Plano Diretor da Embrapa (2024-2030), julgue o item a seguir.
A Embrapa tem como missão viabilizar soluções de pesquisa, desenvolvimento e inovação para a sustentabilidade da agricultura, em benefício da sociedade brasileira; e a sua visão é ser protagonista e parceira essencial na geração e no uso de conhecimentos para o desenvolvimento sustentável da agricultura brasileira até o ano de 2030.
Com base no disposto no Código de Conduta, Ética e Integridade da Embrapa, julgue o item a seguir.
Todos os compromissos, deveres e vedações veiculados no Código de Conduta, Ética e Integridade da Embrapa aplicam-se ao uso da Internet, incluído o das mídias sociais.
Climate change poses significant challenges to cattle farming, a sector vital to global food security. Among the most pressing concerns is the increasing frequency and intensity of droughts. Reduced rainfall diminishes pasture quality and availability, limiting feed for livestock and increasing water scarcity. This can lead to decreased animal growth rates, reduced milk production, and increased mortality rates. Moreover, prolonged droughts can contribute to desertification, shrinking available grazing land and forcing farmers to adopt costly alternative feeding strategies.
Beyond drought, other climate-related impacts include heat stress, which can significantly impact animal health and productivity. Rising temperatures can exacerbate heat stress, leading to decreased feed intake, reduced fertility, and increased mortality in livestock. Furthermore, extreme weather events, such as heavy rainfall and flooding, can cause infrastructure damage, contaminate water sources, and lead to the loss of livestock.
The cattle farming sector itself contributes to climate change through greenhouse gas emissions, primarily methane produced during animal digestion and nitrous oxide from manure management. Deforestation for pasture expansion also releases significant amounts of carbon dioxide.
To address these challenges, a multi-pronged approach is crucial.
• Genetic selection: Breeding programs focused on developing drought-resistant livestock breeds are vital. and heat-tolerant
• Sustainable feeding strategies: Implementing precision feeding techniques, improving feed efficiency, and exploring alternative drought-resistant forage livestock resilience. feed sources, varieties, such as can enhance
• Integrated farming systems: Integrating crop and livestock production, such as through agroforestry systems, can improve soil health, enhance water retention, and reduce greenhouse gas emissions.
• Technological innovations: Utilizing technologies such as precision livestock farming, remote sensing for pasture monitoring, and renewable energy sources can improve resource efficiency and redu
Furthermore, strong policy support, including incentives for sustainable farming practices, investments in research and development, and improved access to climate information services, are essential for the long-term sustainability of the cattle farming sector.
Addressing the challenges posed by climate change requires a collaborative effort involving farmers, researchers, policymakers, and consumers. By embracing innovative solutions, prioritizing sustainable practices, and fostering a collective understanding of the importance of climate-resilient livestock production, we can ensure a future when this vital sector continues to thrive while minimizing its environmental impact.
Internet:<conafer.org.br> (adapted).
Judge the following item based on the text above.
The text reiterates that the choices of consumers do not affect the methods of cattle raising significantly.
Climate change poses significant challenges to cattle farming, a sector vital to global food security. Among the most pressing concerns is the increasing frequency and intensity of droughts. Reduced rainfall diminishes pasture quality and availability, limiting feed for livestock and increasing water scarcity. This can lead to decreased animal growth rates, reduced milk production, and increased mortality rates. Moreover, prolonged droughts can contribute to desertification, shrinking available grazing land and forcing farmers to adopt costly alternative feeding strategies.
Beyond drought, other climate-related impacts include heat stress, which can significantly impact animal health and productivity. Rising temperatures can exacerbate heat stress, leading to decreased feed intake, reduced fertility, and increased mortality in livestock. Furthermore, extreme weather events, such as heavy rainfall and flooding, can cause infrastructure damage, contaminate water sources, and lead to the loss of livestock.
The cattle farming sector itself contributes to climate change through greenhouse gas emissions, primarily methane produced during animal digestion and nitrous oxide from manure management. Deforestation for pasture expansion also releases significant amounts of carbon dioxide.
To address these challenges, a multi-pronged approach is crucial.
• Genetic selection: Breeding programs focused on developing drought-resistant livestock breeds are vital. and heat-tolerant
• Sustainable feeding strategies: Implementing precision feeding techniques, improving feed efficiency, and exploring alternative drought-resistant forage livestock resilience. feed sources, varieties, such as can enhance
• Integrated farming systems: Integrating crop and livestock production, such as through agroforestry systems, can improve soil health, enhance water retention, and reduce greenhouse gas emissions.
• Technological innovations: Utilizing technologies such as precision livestock farming, remote sensing for pasture monitoring, and renewable energy sources can improve resource efficiency and redu
Furthermore, strong policy support, including incentives for sustainable farming practices, investments in research and development, and improved access to climate information services, are essential for the long-term sustainability of the cattle farming sector.
Addressing the challenges posed by climate change requires a collaborative effort involving farmers, researchers, policymakers, and consumers. By embracing innovative solutions, prioritizing sustainable practices, and fostering a collective understanding of the importance of climate-resilient livestock production, we can ensure a future when this vital sector continues to thrive while minimizing its environmental impact.
Internet:<conafer.org.br> (adapted).
Judge the following item based on the text above.
One of the strategies proposed focuses on specific systems for both soil health and water retention improvement.
Climate change poses significant challenges to cattle farming, a sector vital to global food security. Among the most pressing concerns is the increasing frequency and intensity of droughts. Reduced rainfall diminishes pasture quality and availability, limiting feed for livestock and increasing water scarcity. This can lead to decreased animal growth rates, reduced milk production, and increased mortality rates. Moreover, prolonged droughts can contribute to desertification, shrinking available grazing land and forcing farmers to adopt costly alternative feeding strategies.
Beyond drought, other climate-related impacts include heat stress, which can significantly impact animal health and productivity. Rising temperatures can exacerbate heat stress, leading to decreased feed intake, reduced fertility, and increased mortality in livestock. Furthermore, extreme weather events, such as heavy rainfall and flooding, can cause infrastructure damage, contaminate water sources, and lead to the loss of livestock.
The cattle farming sector itself contributes to climate change through greenhouse gas emissions, primarily methane produced during animal digestion and nitrous oxide from manure management. Deforestation for pasture expansion also releases significant amounts of carbon dioxide.
To address these challenges, a multi-pronged approach is crucial.
• Genetic selection: Breeding programs focused on developing drought-resistant livestock breeds are vital. and heat-tolerant
• Sustainable feeding strategies: Implementing precision feeding techniques, improving feed efficiency, and exploring alternative drought-resistant forage livestock resilience. feed sources, varieties, such as can enhance
• Integrated farming systems: Integrating crop and livestock production, such as through agroforestry systems, can improve soil health, enhance water retention, and reduce greenhouse gas emissions.
• Technological innovations: Utilizing technologies such as precision livestock farming, remote sensing for pasture monitoring, and renewable energy sources can improve resource efficiency and redu
Furthermore, strong policy support, including incentives for sustainable farming practices, investments in research and development, and improved access to climate information services, are essential for the long-term sustainability of the cattle farming sector.
Addressing the challenges posed by climate change requires a collaborative effort involving farmers, researchers, policymakers, and consumers. By embracing innovative solutions, prioritizing sustainable practices, and fostering a collective understanding of the importance of climate-resilient livestock production, we can ensure a future when this vital sector continues to thrive while minimizing its environmental impact.
Internet:<conafer.org.br> (adapted).
Judge the following item based on the text above.
The excerpt: “prolonged droughts can contribute to desertification, shrinking available grazing land and forcing farmers to adopt costly alternative feeding strategies” (in the first paragraph) can be correctly translated as: secas prolongadas podem contribuir para a desertificação, diminuindo as terras de pastagem disponíveis e forçando os agricultores a adotarem estratégias alimentares alternativas dispendiosas.