Regulated deficit irrigation benefits the production of container- grown citrus nursery trees (2018)
- Authors:
- USP affiliated authors: COELHO, RUBENS DUARTE - ESALQ ; COUTO, HILTON THADEU ZARATE DO - ESALQ ; BUCKERIDGE, MARCOS SILVEIRA - IB ; MOURÃO FILHO, FRANCISCO DE ASSIS ALVES - ESALQ
- Unidades: ESALQ; IB
- DOI: 10.1007/s00468-018-1748-2
- Subjects: CRESCIMENTO VEGETAL; IRRIGAÇÃO; ÁRVORES FRUTÍFERAS; MUDAS; DEFICIT HÍDRICO; ECOFISIOLOGIA VEGETAL
- Keywords: Citrus spp.; Poncirus trifoliata (L.) Rafinesque; Carbohydrate composition; Grafting; Rootstock; Water management
- Agências de fomento:
- Language: Inglês
- Imprenta:
- Publisher place: Heidelberg
- Date published: 2018
- Source:
- Este periódico é de assinatura
- Este artigo NÃO é de acesso aberto
- Cor do Acesso Aberto: closed
-
ABNT
GIRARDI, Eduardo A; BRANDÃO, Andréa D; COELHO, Rubens D; et al. Regulated deficit irrigation benefits the production of container- grown citrus nursery trees. Trees, Heidelberg, v. 32, n. 6, p. 1751-1766, 2018. Disponível em: < http://dx.doi.org/10.1007/s00468-018-1748-2 > DOI: 10.1007/s00468-018-1748-2. -
APA
Girardi, E. A., Brandão, A. D., Coelho, R. D., Couto, H. T. Z. do, Buckeridge, M. S., & Mourão Filho, F. de A. A. (2018). Regulated deficit irrigation benefits the production of container- grown citrus nursery trees. Trees, 32( 6), 1751-1766. doi:10.1007/s00468-018-1748-2 -
NLM
Girardi EA, Brandão AD, Coelho RD, Couto HTZ do, Buckeridge MS, Mourão Filho F de AA. Regulated deficit irrigation benefits the production of container- grown citrus nursery trees [Internet]. Trees. 2018 ; 32( 6): 1751-1766.Available from: http://dx.doi.org/10.1007/s00468-018-1748-2 -
Vancouver
Girardi EA, Brandão AD, Coelho RD, Couto HTZ do, Buckeridge MS, Mourão Filho F de AA. Regulated deficit irrigation benefits the production of container- grown citrus nursery trees [Internet]. Trees. 2018 ; 32( 6): 1751-1766.Available from: http://dx.doi.org/10.1007/s00468-018-1748-2 - Polyethylene glycol damages grafted citrus plants based on biometric, physiological,and biochemical responses
- 'Swingle' citrumelo propagation by cuttings for citrus nursery tree production of inarching
- Irrogação por gotejo na citricultura
- Vegetative growth of containerized citrus nursery trees subjected to five levels of irrigation
- Citrus sudden death-associated virus (CSDaV) and citrus tristeza virus (CTV) in eleven rootstocks for ‘Valência’ sweet orange
- Trifoliate hybrids as alternative rootstocks for ‘Valencia’ sweet orange under rainfed conditions
- Vegetative growth of containerized citrus nursery trees subjected to five levels of irrigation
- The harvesting system affects the quality and conservation of the ‘Tahiti’ acid lime
- Beneficiamento pós-colheita de lima ácida ‘Tahiti’ afeta sua qualidade e conservação
- Seleção de cultivares de laranja doce de maturação precoce por índices de desempenho
Informações sobre o DOI: 10.1007/s00468-018-1748-2 (Fonte: oaDOI API)
How to cite
A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas
Referências citadas na obra
Alves J Jr, Folegatti MV, Silva CR, Silva TJA, Evangelista AWP (2011) Response of young ‘Tahiti’ lime trees to different irrigation levels. Eng Agríc 31:303–314 |
---|
Amaral LIV, Gaspar M, Costa PMF, Aidar MPM, Buckeridge MS (2007) Novo método enzimático e sensível de extração e dosagem de amido em materiais vegetais. Hoehnea 34:425–431 |
Bataglia OC, Furlani PR, Ferrarezi RS, Medina CL (2008) Padrão nutricional de mudas de citros. Vivecitrus, Conplant, Araraquara |
Ballester C, Castel J, Abd El-Mageed TA, Castel JR, Intrigliolo DS (2014) Long-term response of ‘Clementina de Nules’ citrus trees to summer regulated deficit irrigation. Agric Water Manag 138:78–84 |
Bates LS, Waldren RP, Teare ID (1973) Rapid determination of free proline for water-stress studies. Plant Soil 39:205–207 |
Beeson RC (2007) Determining plant-available water of woody ornamentals in containers in situ during production. Hort Sci 42:1700–1704 |
Bové JM, Ayres AJ (2007) Etiology of three recent diseases of citrus in Sao Paulo State: sudden death, variegated chlorosis and huanglongbing. IUBMB Life 59:346–354 |
Brar GRPS (2012) Effect of photoperiod, water stress and nitrogen nutrition on bud push, scion growth and cytokinin content in container-grown citrus nursery trees. Dissertation, University of Florida |
Bremer Neto H, Silva SR, Mourão Filho FAA, Spósito MB, Caputo MM (2015) Manual de boas práticas na produção de mudas cítricas. Vivecitrus, Araraquara |
Bureau of Citrus Budwood Registration (2017) Citrus budwood annual report 2015–2016. Bureau of Citrus Budwood Registration. http://www.freshfromflorida.com/content/download/72969/1974302/2015-2016_Annual_Report_Finalpdf . Accessed 12 May 2017 |
Calbo AG, Silva WLC (2006) Gaseous irrigation control system: description and physical tests for performance assessment. Bragantia 65:501–511 |
Camargo AP, Marin FR, Sentelhas PC, Picini AG (1999) Ajuste da equação de Thornthwaite para estimar a evapotranspiração potencial em climas áridos e superúmidos, com base na amplitude térmica diária. Rev Bras Agrometeorol 7:251–257 |
Carr MKV (2012) The water relations and irrigation requirements of citrus (Citrus spp.): a review. Exp Agric 48:347–377 |
Coordenadoria de Defesa Agropecuária do Estado de São Paulo (2017) Viveiros de mudas. Coordenadoria de Defesa Agropecuária do Estado de São Paulo. http://www.defesa.agricultura.sp.gov.br/www/servicos/?/consulta-dos-cadastros-de-borbulheiras-viveiros-e-deposito-de-mudas/&cod=76 and http://ccsm.br/eventos/dia-porta-enxerto/11o-dia-porta-enxerto/ . Accessed 12 Apr 2017 |
Fischer G, Shah M, Tubiello FN, van Velhuizen H (2005) Socio-economic and climate change impacts on agriculture: an integrated assessment, 1990–2080. Philos Trans R Soc B. https://doi.org/10.1098/rstb.2005.1744 |
Food and Agriculture Organization (2017) FAOSTAT Crops. Food and Agriculture Organization. http://www.fao.org/faostat/en/#data/QC . Accessed on 2 May 2017 |
Fulcher A, LeBude AV, Owen JS Jr, White SA, Beeson RC (2016) The next ten years: strategic vision of water resources for nursery producers. HortTechnology 26:121–132 |
García-Tejero I, Romero-Vicente R, Jiménez-Bocanegra JA, Martínez-García G, Durán-Zuazo VH, Muriel-Fernández JL (2010) Response of citrus trees to deficit irrigation during different phenological periods in relation to yield, fruit quality, and water productivity. Agric Water Manag 97:689–699 |
Gasque MM, Pau-Granero B, González-Altozano P (2016) Effects of long-term summer deficit irrigation on ‘Navelina’ citrus trees. Agric Water Manag 169:140–147 |
Gonçalves LP, Alves TF, Martins CP, Sousa AO, Santos IC, Pirovani CP, Almeida AAF, Coelho Filho MA, Gesteira AS, Soares Filho WS, Girardi EA, Costa MGC (2016) Rootstock-induced physiological and biochemical mechanisms of drought tolerance in sweet orange. Acta Physiol Plant 38:1–12 |
Graham JH, Feichtenberger E (2015) Citrus phytophthora diseases: management challenges and successes. J Citrus Path 2:1–11 |
Keller M (2005) Deficit irrigation and vine mineral nutrition. Am J Enol Vitic 56:267–283 |
Magalhães Filho JR, Amaral LR, Machado DFSP, Medina CL, Machado EC (2008) Deficiência hídrica, trocas gasosas e crescimento de raízes em laranjeira ‘Valência’ sobre dois tipos de porta-enxerto. Bragantia 67:75–82 |
Melgar JC, Dunlop JM, Syvertsen JP (2010) Growth and physiological responses of the citrus rootstock Swingle citrumelo seedlings to partial rootzone drying and deficit irrigation. J Agric Sci 148:593–602 |
Melo RF, Gruber YBG, Coelho RD (2007) Efeito do armazenamento das amostras para determinação do potencial da água na folha pela câmara de pressão. Irriga 12:326–337 |
Ministeria de Agricultura, Pesca y Alimentacion (2017) Registro de productores de plantas de vivero. Ministeria de Agricultura, Pesca y Alimentacion. http://www.mapama.gob.es/es/agricultura/temas/ medios-de-produccion/regdef_tcm7-1438pdf . Accessed on 2 May 2017 |
Mourão Filho FAA, Salvo JG, Machado CC, Coelho RD, Piedade SMS, Graf CCD (2007) Desenvolvimento vegetativo do limão Cravo em função do volume de irrigação. Irriga 12:471–480 |
Nolte KD, Hanson AD, Gage DA (1997) Proline accumulation and methylation to proline betaine in Citrus: implications for genetic engineering of stress resistance. J Am Soc Hortic Sci 122:8–13 |
Olic FB, Mourão Filho FAA, Graf CCD, Girardi EA, Salvo JG, Coelho RD (2001) Vegetative growth of container-grown citrus nursery trees subjected to five levels of irrigation. In: Proceedings of the international congress of citrus nurserymen, 6th edn. international society of citrus nurserymen, Ribeirão Preto, pp 131–134 |
Ouma G (2005) Root confinement and irrigation frequency affect growth of rough lemon (Citrus limon) seedlings. Fruits 60:195–202 |
Pedroso FKJV, Prudente DA, Bueno ACR, Machado EC, Ribeiro RV (2014) Drought tolerance in citrus trees is enhanced by rootstock-dependent changes in root growth and carbohydrate availability. Environ Exp Bot 101:26–35 |
Pérez-Pérez JG, García J, Robles JM, Botía P (2010) Economic analysis of navel orange cv ‘Lane Late’ grown on two different drought-tolerant rootstocks under deficit irrigation in south-eastern Spain. Agr Water Manag 97:157–164 |
Pruvost O, Gottwald TR, Brocherieux C (1999) The effect of irrigation practices on the spatio-temporal increase of Asiatic citrus canker in simulated nursery plots in Reunion Island. Eur J Plant Pathol 105:23–37 |
Rabe E (2000) Citrus canopy management: effect of nursery tree quality, trellising and spacing on growth and initial yields. Acta Hort 515:273–279 |
Raviv M, Lieth JH (2008) Soilless culture: theory and practice. Elsevier Science, London |
Ribeiro RV, Espinoza-Nuñez E, Pompeu Junior J, Mourão Filho FAA, Machado EC (2014) Citrus rootstocks for improving the horticultural performance and physiological responses under constraining environments. In: Ahmad P (ed) Improvement of crops in the era of climatic changes. Springer, New York, pp 1–37 |
Romero P, Navarro JM, Pérez-Pérez J, Garcia-Sánchez F, Gomez-Gomez A, Porras I, Martinez V, Botía P (2006) Deficit irrigation and rootstock: their effects on water relations, vegetative development, yield, fruit quality and mineral nutrition of Clemenules mandarin. Tree Physiol 26:1537–1548 |
Santana-Vieira DDS, Freschi L, Almeida LAH, Moraes DHS, Neves DM, Santos LM, Bertolde FZ, Soares Filho WS, Coelho Filho MA, Gesteira AS (2016) Survival strategies of citrus rootstocks subjected to drought. Sci Rep 6:e38775 |
Shao HB, Chu LY, Jaleel CA, Zhao CX (2008) Water-deficit stress-induced anatomical changes in higher plants. Comptes Rendus Biol 331:215–225 |
Spann TM, Ferguson L (2014) Commercial production of container-grown nursery trees. In: Ferguson L, Grafton-Cardwell EE (eds) Citrus production manual. University of California, Richmond, pp 107–116 |
Srivastava AK (2012) Advances in citrus nutrition. Springer, New York |
Vu JCV, Yelenosky G (1989) Non-structural carbohydrate concentrations in leaves of ‘Valencia’ orange subjected to water deficits. Environ Exp Bot 29:149–154 |