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Registros recuperados : 9 | |
4. | | COLLICCHIO, E.; ROCHA, H. R. DA; VICTORIA, D. de C.; BALLESTER, M. V. R.; TOLEDO, A. M. A. Implicações das mudanças do clima no zoneamento agroclimático da cana-de-açúcar no estado do Tocantins, considerando o modelo GFDL. Revista Brasileira de Geografia Física, Recife, v. 08, n. 06, p. 1730-1747, 2015. Biblioteca(s): Embrapa Territorial. |
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5. | | TOURNE, D. C. M.; BALLESTER, M. V. R.; JAMES, P. M. A.; MARTORANO, L. G.; GUEDES, M. C.; THOMAS, E. Strategies to optimize modeling habitat suitability of Bertholletia excelsa in the Pan-Amazonia. Ecology and Evolution, v. 9, n. 22, p. 12357-12960, Nov. 2019. Biblioteca(s): Embrapa Amapá; Embrapa Amazônia Oriental. |
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6. | | RIZZO, R.; GARCIA, A. S.; VILELA, V. M. de F. N.; BALLESTER, M. V. R.; NEILL, C.; VICTORIA, D. de C.; ROCHA, H. R. da; COE, M. T. Land use changes in Southeastern Amazon and trends in rainfall and water yield of the Xingu River during 1976-2015. Climatic Change, v. 162, n. 3, p. 1419-1436, Oct. 2020. Biblioteca(s): Embrapa Agricultura Digital. |
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7. | | PELLEGRINO, G. Q.; MORAES, J. M. de; GUANDIQUE, M. E. G.; BALLESTER, M. V. R.; VICTORIA, R. L.; MARTINELLI, L. A. Análise espaço-temporal de componentes hidroclimáticos na bacia do rio Piracicaba, SP. Revista Brasileira de Agrometeorologia, Santa Maria, v.9, n.1, p. 125-135, 2001. Biblioteca(s): Embrapa Agricultura Digital. |
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8. | | STEINFELD, J. P.; BIANCHI, F. J. J. A.; LOCATELLI, J. L.; RIZZO, R.; RESENDE, M. E. B. DE; BALLESTER, M. V. R.; CERRI, C. E. P.; BERNARDI, A. C. de C.; CREAMER, R. E. Increasing complexity of agroforestry systems benefits nutrient cycling and mineral-associated organic carbon storage, in south-eastern Brazil. Geoderma, v. 440, dec. 2023, 116726. 12 p. Biblioteca(s): Embrapa Pecuária Sudeste. |
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9. | | KRUSCHEM, A. V.; BALLESTER, M. V. R.; VICTORIA, R. L.; BERNARDES, M. C.; LEITE, N. K.; HANADA, L.; VICITORIA, D. de C.; TOLEDO, A. M.; OMETTO, J. P.; MOREIRA, M. Z.; GOMES, B. M.; BOLSON, M. A.; GOUVEIA NETO, S.; BONELLI, N.; DEEGAN, L.; NEILL, C.; THOMAS, S.; AUFENKAMPE, A. K.; RICHEY, J. E. Efeitos das mudanças do uso da terra na biogeoquímica dos corpos d'água da bacia do rio Ji-Paranpa, Rondônia. Acta Amazonica, Manaus, v. 35, n. 2, p. 197-205, abr./jun. 2005. Biblioteca(s): Embrapa Florestas. |
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Registros recuperados : 9 | |
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Registro Completo
Biblioteca(s): |
Embrapa Pecuária Sudeste. |
Data corrente: |
15/01/2024 |
Data da última atualização: |
15/01/2024 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
STEINFELD, J. P.; BIANCHI, F. J. J. A.; LOCATELLI, J. L.; RIZZO, R.; RESENDE, M. E. B. DE; BALLESTER, M. V. R.; CERRI, C. E. P.; BERNARDI, A. C. de C.; CREAMER, R. E. |
Afiliação: |
JONAS P. STEINFELD, Wageningen University & Research; FELIX J. J. A. BIANCHI, Wageningen University & Research; JORGE LUIZ LOCATELLI, University of São Paulo; RODNEI RIZZO, University of São Paulo; MARIA EDUARDA BISPO DE RESENDE, University of São Paulo; MARIA V. RAMOS BALLESTER, University of São Paulo; CARLOS E .P. CERRI, University of São Paulo; ALBERTO CARLOS DE CAMPOS BERNARDI, CPPSE; RACHEL E. CREAMER, Wageningen University & Research. |
Título: |
Increasing complexity of agroforestry systems benefits nutrient cycling and mineral-associated organic carbon storage, in south-eastern Brazil. |
Ano de publicação: |
2023 |
Fonte/Imprenta: |
Geoderma, v. 440, dec. 2023, 116726. |
Páginas: |
12 p. |
DOI: |
10.1016/j.geoderma.2023.116726 |
Idioma: |
Inglês |
Conteúdo: |
Agroforestry systems are often promoted as solutions to address land degradation and climate change. However, agroforestry is an umbrella term for a large variety of systems and it is not clear how their degree of complexity influences their provision of soil-based ecosystem services, such as soil organic carbon (SOC) storage and nutrient cycling. Furthermore, a knowledge gap remains whether agroforestry systems perform equally well on all soil types. The objectives of this study were 1) to assess the links between agroforestry complexity, nutrient cycling and SOC fractions, and 2) to assess how soil texture influences these relationships in Brazilian agroforestry systems. We sampled 59 agroforestry plots across 30 sites in Sao Paulo state, Brazil, and 8 monocrop sites (6 pastures and 2 crop monocultures). The 38 sites represented a soil textural gradient, ranging from very sandy to very clayey (clay content range 25 – 620 g kg−1). An Agroforestry Complexity Index (ACI) was defined based on tree species richness, stem density and pruning management. Nutrient (N, P, K, Ca, Mg) and C contents were determined in litter and soil (0–30 cm depth) samples, and mineral-associated organic C (MAOC) and particulate organic C (POC) in soil samples were assessed as well. ACI was positively associated with C, N, P, Ca and Mg stocks in litter, and these litter nutrients were in turn positively associated with the corresponding soil nutrient stocks. Associations between soil nutrients and MAOC were stronger on sandy soils than on clayey soils, particularly for P, Ca and Cation Exchange Capacity (CEC). For POC, robust relationships with nutrients were only found on sandy soils. Structural Equation Models indicated causal relationships between agroforestry complexity, P and Ca cycling, and MAOC and POC stocks in topsoils. Our results indicate that nutrients effectively cycle from in situ mulch into plant-available soil pools and highlight the synergies between nutrient cycling and stable C stocks that can be achieved in complex agroforestry systems. These synergies seem to be particularly strong on sandy soils (<15 % clay). MenosAgroforestry systems are often promoted as solutions to address land degradation and climate change. However, agroforestry is an umbrella term for a large variety of systems and it is not clear how their degree of complexity influences their provision of soil-based ecosystem services, such as soil organic carbon (SOC) storage and nutrient cycling. Furthermore, a knowledge gap remains whether agroforestry systems perform equally well on all soil types. The objectives of this study were 1) to assess the links between agroforestry complexity, nutrient cycling and SOC fractions, and 2) to assess how soil texture influences these relationships in Brazilian agroforestry systems. We sampled 59 agroforestry plots across 30 sites in Sao Paulo state, Brazil, and 8 monocrop sites (6 pastures and 2 crop monocultures). The 38 sites represented a soil textural gradient, ranging from very sandy to very clayey (clay content range 25 – 620 g kg−1). An Agroforestry Complexity Index (ACI) was defined based on tree species richness, stem density and pruning management. Nutrient (N, P, K, Ca, Mg) and C contents were determined in litter and soil (0–30 cm depth) samples, and mineral-associated organic C (MAOC) and particulate organic C (POC) in soil samples were assessed as well. ACI was positively associated with C, N, P, Ca and Mg stocks in litter, and these litter nutrients were in turn positively associated with the corresponding soil nutrient stocks. Associations between soil nutrients and M... Mostrar Tudo |
Palavras-Chave: |
Agroforestry management; Diversity; Multistrata; Silvopastures; Successional agroforestry. |
Thesaurus NAL: |
Soil fertility. |
Categoria do assunto: |
X Pesquisa, Tecnologia e Engenharia |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1160816/1/IncreasingComplexityAgroforestry.pdf
|
Marc: |
LEADER 03121naa a2200313 a 4500 001 2160816 005 2024-01-15 008 2023 bl uuuu u00u1 u #d 024 7 $a10.1016/j.geoderma.2023.116726$2DOI 100 1 $aSTEINFELD, J. P. 245 $aIncreasing complexity of agroforestry systems benefits nutrient cycling and mineral-associated organic carbon storage, in south-eastern Brazil.$h[electronic resource] 260 $c2023 300 $a12 p. 520 $aAgroforestry systems are often promoted as solutions to address land degradation and climate change. However, agroforestry is an umbrella term for a large variety of systems and it is not clear how their degree of complexity influences their provision of soil-based ecosystem services, such as soil organic carbon (SOC) storage and nutrient cycling. Furthermore, a knowledge gap remains whether agroforestry systems perform equally well on all soil types. The objectives of this study were 1) to assess the links between agroforestry complexity, nutrient cycling and SOC fractions, and 2) to assess how soil texture influences these relationships in Brazilian agroforestry systems. We sampled 59 agroforestry plots across 30 sites in Sao Paulo state, Brazil, and 8 monocrop sites (6 pastures and 2 crop monocultures). The 38 sites represented a soil textural gradient, ranging from very sandy to very clayey (clay content range 25 – 620 g kg−1). An Agroforestry Complexity Index (ACI) was defined based on tree species richness, stem density and pruning management. Nutrient (N, P, K, Ca, Mg) and C contents were determined in litter and soil (0–30 cm depth) samples, and mineral-associated organic C (MAOC) and particulate organic C (POC) in soil samples were assessed as well. ACI was positively associated with C, N, P, Ca and Mg stocks in litter, and these litter nutrients were in turn positively associated with the corresponding soil nutrient stocks. Associations between soil nutrients and MAOC were stronger on sandy soils than on clayey soils, particularly for P, Ca and Cation Exchange Capacity (CEC). For POC, robust relationships with nutrients were only found on sandy soils. Structural Equation Models indicated causal relationships between agroforestry complexity, P and Ca cycling, and MAOC and POC stocks in topsoils. Our results indicate that nutrients effectively cycle from in situ mulch into plant-available soil pools and highlight the synergies between nutrient cycling and stable C stocks that can be achieved in complex agroforestry systems. These synergies seem to be particularly strong on sandy soils (<15 % clay). 650 $aSoil fertility 653 $aAgroforestry management 653 $aDiversity 653 $aMultistrata 653 $aSilvopastures 653 $aSuccessional agroforestry 700 1 $aBIANCHI, F. J. J. A. 700 1 $aLOCATELLI, J. L. 700 1 $aRIZZO, R. 700 1 $aRESENDE, M. E. B. DE 700 1 $aBALLESTER, M. V. R. 700 1 $aCERRI, C. E. P. 700 1 $aBERNARDI, A. C. de C. 700 1 $aCREAMER, R. E. 773 $tGeoderma$gv. 440, dec. 2023, 116726.
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