Amanda Posselt Martins scite author profile

RESUMOEm sistemas de integração lavoura-pecuária, boa parte do suprimento de nutrientes para as pastagens provém das excreções dos animais, na forma de esterco e de urina, o que resulta em estímulo à atividade e ao acúmulo de nutrientes nas suas células. Este estudo foi desenvolvido num experimento de integração lavourapecuária em plantio direto, iniciado em 2001, e objetivou avaliar o impacto de diferentes intensidades de pastejo da pastagem de inverno (aveia-preta + azevém; 10, 20 e 40 cm, e um tratamento sem pastejo) sobre a atividade microbiana e sobre os teores e estoques de C, N e P na biomassa microbiana na camada de 0-10 cm de um Latossolo Vermelho, no Sul do Brasil, durante o ciclo da pastagem. Os teores e estoques dos nutrientes na biomassa e a atividade microbiana foram alterados pela intensidade de pastejo e pela época no ciclo da pastagem. Os teores de C e de P microbiano aumentaram do início da pastagem, em maio, até o período de grande produção de fitomassa, em setembro, após o qual decresceram, acompanhando o início de senescência da pastagem. Por sua vez, o N microbiano decresceu de maio para novembro, possivelmente devido à absorção desse nutriente pelas plantas. Sistemas de integração lavoura-pecuária em plantio direto mantêm a qualidade

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Animal production and soil characteristics from integrated crop-livestock systems: toward sustainable intensification

Carvalho

Peterson

Nunes

et al. 2018

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Sustainable intensification of land-use practices has never been more important to ensure food security for a growing world population. When combined under thoughtful management, cover cropping and crop-livestock integration under no-till systems can benefit from unexpected synergies due to their unique features of plant-animal diversification and complex agroecosystem functions. Mimicking the nutrient coupling/decoupling processes of natural ecosystems by diversifying plant and animal components of no-till integrated crop-livestock operations is an essential feature of the design of agroecological systems that support self-regulating feedbacks and lend resilience while increasing productivity and ecosystem service provision. Focusing on grazing animals as drivers of agroecosystem change, we highlight the benefits of grazed cover crops in rotation with cash crops for primary and secondary production and for soil physical, chemical, and biological parameters. However, careful management of grazing intensity is imperative; overgrazing drives soil deterioration, while light to moderate grazing enhances overall system functioning and allows for the generation of emergent properties.

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Phosphorus and potassium cycling in a long-term no-till integrated soybean-beef cattle production system under different grazing intensities insubtropics

Assmann

Martins

Anghinoni

et al. 2017

Nutr Cycl Agroecosyst

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Short‐term Impacts on Soil‐quality Assessment in Alternative Land Uses of Traditional Paddy Fields in Southern Brazil

et al. 2016

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No‐till, crop diversity and integrated crop–livestock systems are proposed managements to increase agriculture sustainability in the rice paddies of the Southern Brazilian lowlands and avoid degradation in the region. Because soil is considered a key medium in which management modifications can be measured, our study aimed to evaluate soil‐quality impacts by measuring carbon and nitrogen stocks and microbial activity 18 months after the adoption of different paddy‐farming systems in an Albaqualf soil of Southern Brazil. The treatments consisted of five paddy‐farming systems with a range of vegetation diversity (both in time and in space) and grazing seasons. In addition, a reference area (i.e. native forest) was sampled for comparison. We verified that soil quality was affected over the short term through the adoption of no‐till, crop diversity and integrated grazing practices. However, during the study period, only the system with low anthropic and/or mechanical intervention and high plant diversity differed from the traditional paddy land‐use approach in Brazil in terms of soil‐quality effects. This system achieved a carbon management index of 49 (approximately half that of the native forest) and had the highest enzymatic activity (similar to native forest). These outcomes were primarily due to an increase in the particulate organic matter fraction of the soil carbon stock (4·6 Mg ha−1 more than in rice monocropping). To evaluate changes in soil quality over the long term, additional studies are required. Copyright © 2016 John Wiley & Sons, Ltd.

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Sward height determines pasture production and animal performance in a long-term soybean-beef cattle integrated system

Kunrath

Nunes

Filho

et al. 2020

Agricultural Systems

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No-tillage increases irrigated rice yield through soil quality improvement along time

Denardin

Carmona²,

Veloso

et al. 2019

Soil and Tillage Research

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Least limiting water range and soybean yield in a long-term, no-till, integrated crop-livestock system under different grazing intensities

Cecagno

Costa

Anghinoni

et al. 2016

Soil and Tillage Research

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