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Registros recuperados : 14 | |
3. | | TONATO, F.; PEDREIRA, B. C. e; PEDREIRA, C. G. S.; PEQUENO, D. N. L. Aveia preta e azevém anual colhidos por interceptação de luz ou intervalo fixo de tempo em sistemas integrados de agricultura e pecuária no Estado de São Paulo. Ciência Rural, Santa Maria, v. 44, n. 1, p. 104-110, jan, 2014. Biblioteca(s): Embrapa Agrossilvipastoril; Embrapa Amazônia Ocidental. |
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6. | | PEREIRA, C. G. S.; SILVA, V. J. da; GUIMARÃES, M. S.; PEQUENO, D. N. L.; TONATO, F. Fixed versus variable rest period effects on herbage accumulation and canopy structure of grazed 'Tifton 85' and 'Jiggs' Bermuda grass. Pesquisa Agropecuária Brasileira, Brasília, DF, v. 53, n. 1, p. 113-120, jan. 2018. Título em português: Efeitos de períodos de descanso fixo e variável no acúmulo de forragem e estrutura do dossel de capim-bermuda 'Jiggs' e 'Tifton 85' sob pastejo. Biblioteca(s): Embrapa Unidades Centrais. |
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7. | | FERNANDES, J. M. C.; PAVAN, W.; PEQUENO, D.; WIEST, R.; HOLBIG, C. A.; OLIVEIRA, F.; HOOGENBOOM, G. Improving crop pest/disease modeling. In: BOOTE, K. (Ed.). Advances in crop modelling for a sustainable agriculture. Cambridge, UK: Burleigh Dodds Science Publishing, 2019. Biblioteca(s): Embrapa Trigo. |
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8. | | MORENO, L. S. B.; BOOTE, K. J.; SOLLENBERGER, L. D.; KOHMANN, M. M.; PEQUENO, D. N. L. Shade and nitrogen effects on regrowth dynamics, partitioning, and herbage production of Jiggs Bermudagrass and Mulato-2 brachiaria hybrid. In: ASA, CSSA-SSSA INTERNATIONAL ANNUAL MEETINGS, 2015, Minneapolis. Synergy in science: partnering for solutions: proceedings. Madison: American Soceity of Agronomy, 2015. Resumo 307-38. Biblioteca(s): Embrapa Pesca e Aquicultura. |
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9. | | SANTOS, M. L. dos; SANTOS, P. M.; BOOTE, K. J.; PEQUENO, D. N. L.; BARIONI, L. G.; CUADRA, S. V.; HOOGENBOOM, G. Applying the CROPGRO Perennial Forage Model for long-term estimates of Marandu palisadegrass production in livestock management scenarios in Brazil. Field Crops Research, v. 286, 108629, Oct. 2022. 16 p. Biblioteca(s): Embrapa Agricultura Digital; Embrapa Pecuária Sudeste. |
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10. | | PEQUENO, D. N. L.; FERREIRA, T. B.; FERNANDES, J. M. C.; SINGH, P. K.; PAVAN, W.; SONDER, K.; ROBERTSON, R.; KRUPNIK, T. J.; ERENSTEIN, E.; ASSENG, S. Production vulnerability to wheat blast disease under climate change. Nature Climate Change, v. 14, n. 2, p. 178-183, Feb. 2024. Biblioteca(s): Embrapa Trigo. |
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11. | | TONATO, F.; PEDREIRA, C. G.; PEQUENO, D. N.; AQUINO, D. C.; CARVALHO, M. S.; FERREIRA, A. S.; GUIMARAES, M. S.; SILVA, V. J.; NGULUVE, D. Total and monthly yield of annual ryegrass and arrowleaf clover grown in pure and mixed stands with or without nitrogen fertilization in Southeastern Brazil. In: ASA-CSSA-SSSA INTERNATIONAL ANNUAL MEETINGS, 2011, San Antonio. Fundamental for life: soil, crop, and environmental sciences: abstracts. Madison: ASA: CSSA: SSSA, 2011. Biblioteca(s): Embrapa Amazônia Ocidental. |
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12. | | SANTOS, M. L. dos; SANTOS, P. M.; BARIONI, L. G.; PEREIRA, B. H.; CUADRA, S. V.; PEQUENO, D. N. L.; MARIN, F. R.; SOLLENBERGER, L. Yield gap analysis framework applied to pasture-based livestock systems in Central Brazil. Field Crops Research, v. 314, 109416, 2024. Biblioteca(s): Embrapa Agricultura Digital; Embrapa Pecuária Sudeste. |
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13. | | FERREIRA, T. B.; PAVAN, W.; FERNANDES, J. M. C.; ASSENG, S.; OLIVEIRA, F. A. de; HÖLBIG, C. A.; PEQUENO, D. N. L.; DALMAGO, G. A.; ZANATTA, A. L.; HOOGENBOOM, G. Coupling a pest and disease damage module with CSM-NWheat: a wheat crop simulation model. Transactions of the ASABE, v. 64, n. 6, p. 2061-2071, 2021. Biblioteca(s): Embrapa Trigo. |
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14. | | RAMIREZ-VILLEGAS, J.; MOLERO MILAN, A.; ALEXANDROV, N.; ASSENG, S.; CHALLINOR, A. J.; CROSSA, J.; VAN EEUWIJK, F.; GHANEM, M. E.; GRENIER, C.; HEINEMANN, A. B.; WANG, J.; JULIANA, P.; KEHEL, Z.; KHOLOVA, J; KOO, J.; PEQUENO, D.; QUIROZ, R.; REBOLLEDO, M. C.; SUKUMARAN, S.; VADEZ, V.; WHITE, J. W.; REYNOLDS, M. CGIAR modeling approaches for resource-constrained scenarios: I. Accelerating crop breeding for a changing climate. Crop Science, 2020. Online Version of Record before inclusion in an issue. Biblioteca(s): Embrapa Arroz e Feijão. |
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Registros recuperados : 14 | |
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Registro Completo
Biblioteca(s): |
Embrapa Trigo. |
Data corrente: |
23/04/2024 |
Data da última atualização: |
23/04/2024 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
PEQUENO, D. N. L.; FERREIRA, T. B.; FERNANDES, J. M. C.; SINGH, P. K.; PAVAN, W.; SONDER, K.; ROBERTSON, R.; KRUPNIK, T. J.; ERENSTEIN, E.; ASSENG, S. |
Afiliação: |
DIEGO N. L. PEQUENO, INTERNATIONAL MAIZE AND WHEAT IMPROVEMENT CENTER; THIAGO B. FERREIRA, UNIVERSITY OF FLORIDA; JOSE MAURICIO CUNHA FERNANDES, CNPT; PAWAN K. SINGH, INTERNATIONAL MAIZE AND WHEAT IMPROVEMENT CENTER; WILLINGTHON PAVAN, UNIVERSITY OF FLORIDA; KAI SONDER, INTERNATIONAL MAIZE AND WHEAT IMPROVEMENT CENTER; RICHARD ROBERTSON, INTERNATIONAL FOOD POLICY RESEARCH INSTITUTE; TIMOTHY J. KRUPNIK, INTERNATIONAL MAIZE AND WHEAT IMPROVEMENT CENTER; OLAF ERENSTEIN, INTERNATIONAL MAIZE AND WHEAT IMPROVEMENT CENTER; SENTHOLD ASSENG, TECHNICAL UNIVERSITY MUNICH. |
Título: |
Production vulnerability to wheat blast disease under climate change. |
Ano de publicação: |
2024 |
Fonte/Imprenta: |
Nature Climate Change, v. 14, n. 2, p. 178-183, Feb. 2024. |
DOI: |
https://doi.org/10.1038/s41558-023-01902-2 |
Idioma: |
Inglês |
Conteúdo: |
Wheat blast is a devastating disease caused by the fungal pathogen Magnaporthe oryzae pathotype Triticum that has spread to both neighbouring and distant countries following its emergence in Brazil in the 1980s. Under climate change conditions, wheat blast is predicted to spread primarily in tropical regions. Here we coupled a wheat crop simulation model with a newly developed wheat blast model, to provide quantitative global estimates of wheat blast vulnerability under current and future climates. Under current climatic conditions, 6.4 million hectares of arable land is potentially vulnerable to wheat blast. A more humid and warmer climate in the future (Representative Concentration Pathway 8.5) is likely to increase the area suitable for wheat blast infection, particularly in the Southern Hemisphere, and reduce global wheat production by 69 million tons per year (13% decrease) by mid-century. Impacts of climate change could be further exacerbated and food security problems increased. |
Thesagro: |
Brusone; Clima; Fungo; Patógeno; Trigo. |
Categoria do assunto: |
-- |
Marc: |
LEADER 01826naa a2200301 a 4500 001 2163792 005 2024-04-23 008 2024 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.1038/s41558-023-01902-2$2DOI 100 1 $aPEQUENO, D. N. L. 245 $aProduction vulnerability to wheat blast disease under climate change.$h[electronic resource] 260 $c2024 520 $aWheat blast is a devastating disease caused by the fungal pathogen Magnaporthe oryzae pathotype Triticum that has spread to both neighbouring and distant countries following its emergence in Brazil in the 1980s. Under climate change conditions, wheat blast is predicted to spread primarily in tropical regions. Here we coupled a wheat crop simulation model with a newly developed wheat blast model, to provide quantitative global estimates of wheat blast vulnerability under current and future climates. Under current climatic conditions, 6.4 million hectares of arable land is potentially vulnerable to wheat blast. A more humid and warmer climate in the future (Representative Concentration Pathway 8.5) is likely to increase the area suitable for wheat blast infection, particularly in the Southern Hemisphere, and reduce global wheat production by 69 million tons per year (13% decrease) by mid-century. Impacts of climate change could be further exacerbated and food security problems increased. 650 $aBrusone 650 $aClima 650 $aFungo 650 $aPatógeno 650 $aTrigo 700 1 $aFERREIRA, T. B. 700 1 $aFERNANDES, J. M. C. 700 1 $aSINGH, P. K. 700 1 $aPAVAN, W. 700 1 $aSONDER, K. 700 1 $aROBERTSON, R. 700 1 $aKRUPNIK, T. J. 700 1 $aERENSTEIN, E. 700 1 $aASSENG, S. 773 $tNature Climate Change$gv. 14, n. 2, p. 178-183, Feb. 2024.
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