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Registro Completo |
Biblioteca(s): |
Embrapa Acre; Embrapa Amapá; Embrapa Meio Ambiente; Embrapa Rondônia; Embrapa Roraima. |
Data corrente: |
19/05/2022 |
Data da última atualização: |
19/05/2022 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
HACKET-PAIN, A.; FOEST, J. J.; PEARSE, I. S.; LAMONTAGNE, J. M.; KOENIG, W. D.; VACCHIANO, G.; BOGDZIEWICZ, M.; CAIGNARD, T.; CELEBIAS, P.; VAN DORMOLEN, J.; FERNANDEZ-MARTINEZ, M.; MORIS, J. V.; PALAGHIANU, C.; PESENDORFER, M.; SATAKE, A.; SCHERMER, E.; TANENTZAP, A. J.; THOMAS, P. A.; VECCHIO, D.; WION, A. P.; WOHLGEMUTH, T.; XUE, T. T.; ABERNETHY, K.; ACUNA, M. C. A.; BARRERA, M. D.; BARTON, J. H.; BOUTIN, S.; BUSH, E. R.; CALDERON, S. D.; CAREVIC, F. S.; CASTILHO, C. V. de; CELLINI, J. M.; CHAPMAN, C. A.; CHAPMAN, H.; CHIANUCCI, F.; COSTA, P. da; CROISE, L.; CUTINI, A.; DANTZER, B.; DEROSE, R. J.; DIKANGADISSI, J. T.; DIMOTO, E.; FONSECA, F. L. da; GALLO, L.; GRATZER, G.; GREENE, D. F.; HADAD, M. A.; HERRERA, A. H.; JEFFERY, K. J.; JOHNSTONE, J. F.; KALBITZER, U.; KANTOROWICZ, W.; KLIMAS, C. A.; LAGEARD, J. G. A.; LANE, J.; LAPIN, K.; LEDWON, M.; LEEPER, A. C.; LENCINAS, M. V.; LIRA-GUEDES, A. C.; LORDON, M. C.; MARCHELLI, P.; MARINO, S.; VAN MARLE, H. S.; MCADAM, A. G.; MOMONT, L. R. W.; NICOLAS, M.; WADT, L. H. de O.; PANAHI, P.; PASTUR, G. M.; PATTERSON, T.; PERI, P. L.; PIECHNIK, L.; POURHASHEMI, M.; QUEZADA, C. E.; ROIG, F. A.; ROJAS, K. P.; ROSAS, Y. M.; SCHUELER, S.; SEGET, B.; SOLER, R.; STEELE, M. A.; TORO-MANRIQUEZ, M.; TUTIN, C. E. G.; UKIZINTAMBARA, T.; WHITE, L.; YADOK, B.; WILLIS, J. L.; ZOLLES, A.; ZYWIEC, M.; ASCOLI, D. |
Afiliação: |
CAROLINA VOLKMER DE CASTILHO, CPAF-RR; PATRICIA DA COSTA, CNPMA; FERNANDA LOPES DA FONSECA, CPAF-AC; ANA CLAUDIA LIRA GUEDES, CPAF-AP; LUCIA HELENA DE OLIVEIRA WADT, CPAF-RO. |
Título: |
MASTREE+: Time-series of plant reproductive effort from six continents. |
Ano de publicação: |
2022 |
Fonte/Imprenta: |
Global Change Biology, v. 28, n. 9, p. 3066-3082, 2022. |
ISSN: |
1354-1013 |
DOI: |
10.1111/gcb.16130 |
Idioma: |
Inglês |
Conteúdo: |
Significant gaps remain in understanding the response of plant reproduction to environmental change. This is partly because measuring reproduction in long-lived plants requires direct observation over many years and such datasets have rarely been made publicly available. Here we introduce MASTREE+, a data set that collates reproductive time-series data from across the globe and makes these data freely available to the community. MASTREE+ includes 73,828 georeferenced observations of annual reproduction (e.g. seed and fruit counts) in perennial plant populations worldwide. These observations consist of 5971 population-level time-series from 974 species in 66 countries. The mean and median time-series length is 12.4 and 10 years respectively, and the data set includes 1122 series that extend over at least two decades (≥20 years of observations). For a subset of well-studied species, MASTREE+ includes extensive replication of time-series across geographical and climatic gradients. Here we describe the open-access data set, available as a.csv file, and we introduce an associated web-based app for data exploration. MASTREE+ will provide the basis for improved understanding of the response of long-lived plant reproduction to environmental change. Additionally, MASTREE+ will enable investigation of the ecology and evolution of reproductive strategies in perennial plants, and the role of plant reproduction as a driver of ecosystem dynamics. |
Palavras-Chave: |
General flowering; Seed production. |
Thesaurus Nal: |
Demography; Flowering; Plant reproduction; Regeneration (biological). |
Categoria do assunto: |
-- B Sociologia Rural |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1143250/1/Global-Change-Biology-2022-Hacket8208Pain-MASTREE-Time8208series-of-plant-reproductive-effort-from-six-continents-1.pdf
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Marc: |
LEADER 04794naa a2201297 a 4500 001 2143250 005 2022-05-19 008 2022 bl uuuu u00u1 u #d 022 $a1354-1013 024 7 $a10.1111/gcb.16130$2DOI 100 1 $aHACKET-PAIN, A. 245 $aMASTREE+$bTime-series of plant reproductive effort from six continents.$h[electronic resource] 260 $c2022 520 $aSignificant gaps remain in understanding the response of plant reproduction to environmental change. This is partly because measuring reproduction in long-lived plants requires direct observation over many years and such datasets have rarely been made publicly available. Here we introduce MASTREE+, a data set that collates reproductive time-series data from across the globe and makes these data freely available to the community. MASTREE+ includes 73,828 georeferenced observations of annual reproduction (e.g. seed and fruit counts) in perennial plant populations worldwide. These observations consist of 5971 population-level time-series from 974 species in 66 countries. The mean and median time-series length is 12.4 and 10 years respectively, and the data set includes 1122 series that extend over at least two decades (≥20 years of observations). For a subset of well-studied species, MASTREE+ includes extensive replication of time-series across geographical and climatic gradients. Here we describe the open-access data set, available as a.csv file, and we introduce an associated web-based app for data exploration. MASTREE+ will provide the basis for improved understanding of the response of long-lived plant reproduction to environmental change. Additionally, MASTREE+ will enable investigation of the ecology and evolution of reproductive strategies in perennial plants, and the role of plant reproduction as a driver of ecosystem dynamics. 650 $aDemography 650 $aFlowering 650 $aPlant reproduction 650 $aRegeneration (biological) 653 $aGeneral flowering 653 $aSeed production 700 1 $aFOEST, J. J. 700 1 $aPEARSE, I. S. 700 1 $aLAMONTAGNE, J. M. 700 1 $aKOENIG, W. D. 700 1 $aVACCHIANO, G. 700 1 $aBOGDZIEWICZ, M. 700 1 $aCAIGNARD, T. 700 1 $aCELEBIAS, P. 700 1 $aVAN DORMOLEN, J. 700 1 $aFERNANDEZ-MARTINEZ, M. 700 1 $aMORIS, J. V. 700 1 $aPALAGHIANU, C. 700 1 $aPESENDORFER, M. 700 1 $aSATAKE, A. 700 1 $aSCHERMER, E. 700 1 $aTANENTZAP, A. J. 700 1 $aTHOMAS, P. A. 700 1 $aVECCHIO, D. 700 1 $aWION, A. P. 700 1 $aWOHLGEMUTH, T. 700 1 $aXUE, T. T. 700 1 $aABERNETHY, K. 700 1 $aACUNA, M. C. A. 700 1 $aBARRERA, M. D. 700 1 $aBARTON, J. H. 700 1 $aBOUTIN, S. 700 1 $aBUSH, E. R. 700 1 $aCALDERON, S. D. 700 1 $aCAREVIC, F. S. 700 1 $aCASTILHO, C. V. de 700 1 $aCELLINI, J. M. 700 1 $aCHAPMAN, C. A. 700 1 $aCHAPMAN, H. 700 1 $aCHIANUCCI, F. 700 1 $aCOSTA, P. da 700 1 $aCROISE, L. 700 1 $aCUTINI, A. 700 1 $aDANTZER, B. 700 1 $aDEROSE, R. J. 700 1 $aDIKANGADISSI, J. T. 700 1 $aDIMOTO, E. 700 1 $aFONSECA, F. L. da 700 1 $aGALLO, L. 700 1 $aGRATZER, G. 700 1 $aGREENE, D. F. 700 1 $aHADAD, M. A. 700 1 $aHERRERA, A. H. 700 1 $aJEFFERY, K. J. 700 1 $aJOHNSTONE, J. F. 700 1 $aKALBITZER, U. 700 1 $aKANTOROWICZ, W. 700 1 $aKLIMAS, C. A. 700 1 $aLAGEARD, J. G. A. 700 1 $aLANE, J. 700 1 $aLAPIN, K. 700 1 $aLEDWON, M. 700 1 $aLEEPER, A. C. 700 1 $aLENCINAS, M. V. 700 1 $aLIRA-GUEDES, A. C. 700 1 $aLORDON, M. C. 700 1 $aMARCHELLI, P. 700 1 $aMARINO, S. 700 1 $aVAN MARLE, H. S. 700 1 $aMCADAM, A. G. 700 1 $aMOMONT, L. R. W. 700 1 $aNICOLAS, M. 700 1 $aWADT, L. H. de O. 700 1 $aPANAHI, P. 700 1 $aPASTUR, G. M. 700 1 $aPATTERSON, T. 700 1 $aPERI, P. L. 700 1 $aPIECHNIK, L. 700 1 $aPOURHASHEMI, M. 700 1 $aQUEZADA, C. E. 700 1 $aROIG, F. A. 700 1 $aROJAS, K. P. 700 1 $aROSAS, Y. M. 700 1 $aSCHUELER, S. 700 1 $aSEGET, B. 700 1 $aSOLER, R. 700 1 $aSTEELE, M. A. 700 1 $aTORO-MANRIQUEZ, M. 700 1 $aTUTIN, C. E. G. 700 1 $aUKIZINTAMBARA, T. 700 1 $aWHITE, L. 700 1 $aYADOK, B. 700 1 $aWILLIS, J. L. 700 1 $aZOLLES, A. 700 1 $aZYWIEC, M. 700 1 $aASCOLI, D. 773 $tGlobal Change Biology$gv. 28, n. 9, p. 3066-3082, 2022.
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Embrapa Roraima (CPAF-RR) |
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Registro Completo
Biblioteca(s): |
Embrapa Milho e Sorgo. |
Data corrente: |
23/01/2006 |
Data da última atualização: |
29/05/2018 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Autoria: |
NINAMANGO-CARDENAS, F. E.; GUIMARAES, C. T.; MARTINS, P. R.; PARENTONI, S. N.; CARNEIRO, N. P.; LOPES, M. A.; MORO, J. R.; PAIVA, E. |
Afiliação: |
CLAUDIA TEIXEIRA GUIMARAES, CNPMS; SIDNEY NETTO PARENTONI, CNPMS; NEWTON PORTILHO CARNEIRO, CNPMS. |
Título: |
Mapping QTLs for aluminum tolerance in maize. |
Ano de publicação: |
2003 |
Fonte/Imprenta: |
Euphytica, Wageningen, v. 130, n. 2 p. 223-232, 2003. |
Idioma: |
Inglês |
Conteúdo: |
Aluminum toxicity is one of the major constraints for plant development in acid soils, limiting food production in many countries. Cultivars genetically adapted to acid soils may offer an environmental compatible solution, providing a sustainable agriculture system. The aim of this work was to identify genomic regions associated with Al tolerance in maize, and to quantify the genetic effects on the phenotypic variation. A population of 168 F3:4 families derived from a cross between two contrasting maize inbred lines for Al tolerance was evaluated using the NSRL and RSRL parameters in nutrient solution containing toxic level of aluminum. Variance analyses indicated that the NSRL was the most reliable phenotypic index to measure Al tolerance in the population, being used for further QTL mapping analysis. RFLP and SSR markers were selected for bulked segregant analysis, and additional SSR markers, flanking the polymorphisms of interest, were chosen in order to saturate the putative target regions. Seven linkage groups were constructed using 17 RFLP and 34 SSR markers. Five QTLs were mapped on chromosomes 2, 6 and 8, explaining 60% of the phenotypic variation. QTL4 and marker umc043 were located on chromosomes 8 and 5, close to genes encoding for enzymes involved in the organic acids synthesis pathways, a widely proposed mechanism for Al tolerance in plants. QTL2 was mapped in the same region as Alm2, also associated with Al tolerance in maize. In addition, dominant and additive effects were important in the control of this trait in maize.. MenosAluminum toxicity is one of the major constraints for plant development in acid soils, limiting food production in many countries. Cultivars genetically adapted to acid soils may offer an environmental compatible solution, providing a sustainable agriculture system. The aim of this work was to identify genomic regions associated with Al tolerance in maize, and to quantify the genetic effects on the phenotypic variation. A population of 168 F3:4 families derived from a cross between two contrasting maize inbred lines for Al tolerance was evaluated using the NSRL and RSRL parameters in nutrient solution containing toxic level of aluminum. Variance analyses indicated that the NSRL was the most reliable phenotypic index to measure Al tolerance in the population, being used for further QTL mapping analysis. RFLP and SSR markers were selected for bulked segregant analysis, and additional SSR markers, flanking the polymorphisms of interest, were chosen in order to saturate the putative target regions. Seven linkage groups were constructed using 17 RFLP and 34 SSR markers. Five QTLs were mapped on chromosomes 2, 6 and 8, explaining 60% of the phenotypic variation. QTL4 and marker umc043 were located on chromosomes 8 and 5, close to genes encoding for enzymes involved in the organic acids synthesis pathways, a widely proposed mechanism for Al tolerance in plants. QTL2 was mapped in the same region as Alm2, also associated with Al tolerance in maize. In addition, dominant and additive... Mostrar Tudo |
Palavras-Chave: |
chromosomes-; Cromossomo; Mapeamento genético. |
Thesagro: |
Alumínio; Genética; Marcador Genético; Milho. |
Categoria do assunto: |
-- |
Marc: |
LEADER 02333naa a2200289 a 4500 001 1489128 005 2018-05-29 008 2003 bl uuuu u00u1 u #d 100 1 $aNINAMANGO-CARDENAS, F. E. 245 $aMapping QTLs for aluminum tolerance in maize.$h[electronic resource] 260 $c2003 520 $aAluminum toxicity is one of the major constraints for plant development in acid soils, limiting food production in many countries. Cultivars genetically adapted to acid soils may offer an environmental compatible solution, providing a sustainable agriculture system. The aim of this work was to identify genomic regions associated with Al tolerance in maize, and to quantify the genetic effects on the phenotypic variation. A population of 168 F3:4 families derived from a cross between two contrasting maize inbred lines for Al tolerance was evaluated using the NSRL and RSRL parameters in nutrient solution containing toxic level of aluminum. Variance analyses indicated that the NSRL was the most reliable phenotypic index to measure Al tolerance in the population, being used for further QTL mapping analysis. RFLP and SSR markers were selected for bulked segregant analysis, and additional SSR markers, flanking the polymorphisms of interest, were chosen in order to saturate the putative target regions. Seven linkage groups were constructed using 17 RFLP and 34 SSR markers. Five QTLs were mapped on chromosomes 2, 6 and 8, explaining 60% of the phenotypic variation. QTL4 and marker umc043 were located on chromosomes 8 and 5, close to genes encoding for enzymes involved in the organic acids synthesis pathways, a widely proposed mechanism for Al tolerance in plants. QTL2 was mapped in the same region as Alm2, also associated with Al tolerance in maize. In addition, dominant and additive effects were important in the control of this trait in maize.. 650 $aAlumínio 650 $aGenética 650 $aMarcador Genético 650 $aMilho 653 $achromosomes- 653 $aCromossomo 653 $aMapeamento genético 700 1 $aGUIMARAES, C. T. 700 1 $aMARTINS, P. R. 700 1 $aPARENTONI, S. N. 700 1 $aCARNEIRO, N. P. 700 1 $aLOPES, M. A. 700 1 $aMORO, J. R. 700 1 $aPAIVA, E. 773 $tEuphytica, Wageningen$gv. 130, n. 2 p. 223-232, 2003.
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