African Journal of
Agricultural Research

  • Abbreviation: Afr. J. Agric. Res.
  • Language: English
  • ISSN: 1991-637X
  • DOI: 10.5897/AJAR
  • Start Year: 2006
  • Published Articles: 6849

Full Length Research Paper

Potential for recovery of Campomanesia xanthocarpa Mart. ex O. berg seedlings from water deficit

Larissa Fatarelli Bento
  • Larissa Fatarelli Bento
  • Faculty of Agricultural Sciences, Federal University of Grande Dourados, Road Dourados Itahum, km12, Rural Subdivision, CEP: 79804970, Dourados, State Mato Grosso do Sul, Brazil.
  • Google Scholar
Silvana de Paula Quintão Scalon
  • Silvana de Paula Quintão Scalon
  • Faculty of Agricultural Sciences, Federal University of Grande Dourados, Road Dourados Itahum, km12, Rural Subdivision, CEP: 79804970, Dourados, State Mato Grosso do Sul, Brazil.
  • Google Scholar
Daiane Mugnol Dresch
  • Daiane Mugnol Dresch
  • Faculty of Agricultural Sciences, Federal University of Grande Dourados, Road Dourados Itahum, km12, Rural Subdivision, CEP: 79804970, Dourados, State Mato Grosso do Sul, Brazil.
  • Google Scholar
Zefa Valdivina Pereira
  • Zefa Valdivina Pereira
  • Faculty of Biological and Environmental Sciences, Federal University of Grande Dourados, Road Dourados Itahum, km12, Rural Subdivision, CEP: 79804970, Dourados, State Mato Grosso do Sul, Brazil.
  • Google Scholar


  •  Received: 17 May 2016
  •  Accepted: 16 June 2016
  •  Published: 28 July 2016

References

Albuquerque MPF, Moraes FKC, Santos RIN, Castro GLS, Ramos EMLS, Pinheiro HA (2013). Ecofisiologia de plantas jovens de mogno africano submetidas à deficit hídrico e reidratação. Pes. Agrop. Bras. 48(1):9-6.
Crossref

 

Araújo SAC, Deminicis BB (2009). Fotoinibição da Fotossíntese. Rev. Bras. Biociênc. 7(4):463-472.

 
 

Asharaf M, Harris PJC (2013). Photosynthesis under stressful environments: An overview. Photosynthetica 51:163-190.
Crossref

 
 

Ashraf M (2010). Inducing drought tolerance in plants: some recent advances. Biotechnol. Adv. 28:169-183.
Crossref

 
 

Baker NR (2008). Chlorophyll fluorescence: a probe of photosynthesis in vivo. Ann. Rev. Plant. Biol. 59:89-113.
Crossref

 
 

Baker NR, Rosenqvst E (2004). Applications of chlorophyll fluorescence can improve crop production strategies: an examination of future possibilities. J. Exp. Bot. 55(403):1607-1621.
Crossref

 
 

Ben AC, Ben Rouina B, Sensoy S, Boukhris M, Ben Abdallah F (2009). Changes in gas exchange, proline accumulation and antioxidative enzyme activities in three olive cultivars under contrasting water availability regimes. Environ. Exp. Bot. 67:345-352.
Crossref

 
 

Biswal BPN, Joshi MK, Raval UCB (2011). Photosynthesis, a global sensor of environmental stress in green plants: stress signaling and adaptation. Curr. Sci. 101:47-56.

 
 

Bogeat-Triboulot MB, Brosché M, Renaut J, Jouve L, Le Thiec D, Fayyaz P, Vinocur B, Witters E, Laukens K, Teichmann T, Altman A, Hausman JF, Polle A, Kangasjärvi J, Dreyer E (2007). Gradual soil water depletion results in reversible changes of gene expression, protein profiles, ecophysiology, and growth performance in Populus euphratica, a poplar growing in arid regions. Plant Physiol. 143:876-892.
Crossref

 
 

Calbo MER, De Moraes JAPV (2000). Efeitos da deficiência de água em plantas de Euterpe oleracea (açaí). Rev. Bras. Bot. 23(3):225-230.
Crossref

 
 

Carvalho Filho JLS, Arrigoni-Blank MF, Blank AF, Rangel MAS (2003). Produção de mudas de jatobá (Hymenaea courbaril L.) em diferentes ambientes, recipientes e composições de substratos. Cerne 9(1):109-118.

 
 

Chaves MM, Flexas J, Pinheiro C (2009). Photosynthesis under drought and salt stress: regulation mechanisms from whole plant to cell. Ann. Bot. 103:551-560.
Crossref

 
 

Cochard H, Coll L, Le Roux X, Ameglio T (2002). Unraveling the Effects of Plant Hydraulics on Stomatal Closure during Water Stress in Walnut. Plant Physiol. 128:282-290.
Crossref

 
 

Costa AS, Freire ALO, Bakke IA, Pereira FHF (2015). Respostas fisiológicas e bioquímicas de plantas de aroeira (Myracrodruon urundeuva Allemão) ao déficit hídrico e posterior recuperação. Irriga 20(4):705-717.
Crossref

 
 

Da Matta FM, Ronchi CP, Maestri M, Barros RS (2007). Ecophysiology of coffee growth and production. Braz. J. Plant Physiol. 19(4):485-510.
Crossref

 
 

Dalmolin AC (2013). Relações hídricas, trocas gasosas e anatomia foliar de Vochysia divergens pohl. espécie invasora no pantanal mato-grossense. Tese (Doutorado em Física Ambiental) - Universidade Federal de Mato Grosso, Cuiabá-MT. 106 f.

 
 

Dias MC, Bruggemann W (2010). Limitations os photosynthesis in Phaseolus vulgaris under drought stress: gas exchange, chlorophyll fluorescence and Calvin cycle enzymes. Photosynthetica 48(1):96-102.
Crossref

 
 

Din J, Khan SU, Ali I, Gurmani AR (2011). Physiological and agronomic response of canola varieties to drought stress. J. Anim. Plant Sci. 21:78-82.

 
 

Farquhar GD, Sharkey TD (1982). Stomatal Conductance and Photosynthesis. Ann. Rev. Plant Physiol. 33(1):317-345.
Crossref

 
 

Flexas J, Bota J, Cifre J, Mariano Escalona J, Galmes J, Gulias J, Lefi K, Martinez-Canellas F.S, Moreno T.M.; Ribascarbo M, Riera D, Sampol B, Medrano H (2004). Understanding down-regulation of photosynthesis under water stress: future prospects and searching for physiological tools for irrigation management. Ann. Appl. Biol. 144(3):273-283.
Crossref

 
 

Flexas J, Ribas-Carbó M, Bota J, Galmés J, Henkle M, Martínezca-ellas S, Medrano H (2006). Decreased Rubisco activity during water stress is not induced by decreased relative water content but related to conditions of low stomatal conductance and chloroplast CO2 concentration. New Phytol. 172(1):73-82.
Crossref

 
 

Franco AC, Bustamante M, Caldas LS, Goldstein G, Meinzer FC, Kozovits AR, Rundel P, Corandin VTR (2005). Leaf functional traits of Neotropical savanna trees in relation to seasonal water déficit. Trees 19:326-335.
Crossref

 
 

Gallé A, Feller U (2007). Changes of photosynthetic traits in beech saplings (Fagus sylvatica) under severe drought stress and during recovery. Physiol. Plant 131:412-421.
Crossref

 
 

Galmés J, Medrano H, Flexas J (2007). Photosynthetic limitations in response to water stress and recovery in Mediterranean plants with different growth forms. New Phytol. 175:81-93.
Crossref

 
 

Ghannoum O, Conroy JP, Driscoll SP, Paul MJ, Foyeru CH, Lawlor DW (2003). Nonstomatal limitations are responsible for drought induced photosynthetic inhibition in four C4 species. New Phytol.159:599- 608.
Crossref

 
 

Gonçalves JF C, Silva CEM, Guimarães DG (2009). Fotossíntese e potencial hídrico foliar de plantas jovens de andiroba submetidas à deficiência hídrica e à reidratação. Pesq. Agrop. Bras. 44:8 14.
Crossref

 
 

Herrera A, Tezara W, Marín O, Rengifo E (2008). Stomatal and non-stomatal limitations of photosynthesis in trees of a tropical seasonally flooded forest. Physiol. Plant 134(1):41-48.
Crossref

 
 

Hirayama T, Shinozaki K (2010). Research on plant abiotic stress responses in the postgenome era: past, present and future. The Plant J. Cell Mol. Biol. 61(6):1041-52.

 
 

Kumar A, Singh DP (1998). Use of physiological indices as a screening technique for drought to tolerance in oilseed Brassica species. Ann. Bot. 81(3):413-420.
Crossref

 
 

Larcher W (2006). Ecofisiologia vegetal. São Carlos: Rima. 532 p.

 
 

Liu ZB, Cheng RM, Xiao WF, Guo QS, Wang N (2014). Effect of off-Season flooding on growth, photosynthesis, carbohydrate partitioning, and nutrient uptake in Distylium chinense. PloS One 9(9):1-9.
Crossref

 
 

Lorenzi H (1992). Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas nativas do Brasil. Nova Odessa: Plantarum 368p.

 
 

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(1):75-82.
Crossref

 
 

Manzoni S, Vico G, Porporato A, Katul G (2012). Biological constraints on water transport in the soil–plant–atmosphere system. Adv. Water Res. 51:292-304.
Crossref

 
 

Maxwell K, Johnson G (2000). Chlorophyll fluorescence-a practical guide. J. Exp. Bot. 51:659-668.
Crossref

 
 

Medrano H, Escalona JM, Bota J, Gulías J, Flexas J (2002). Regulation of photosynthesis in C3 plants in response of progressive drought: stomatal conductance oas a reference parameter. Ann. Bot. 89:895-905.
Crossref

 
 

Mielke MS, Almeida AAF, Gomes FP, Auilar AG, Mangabeira PAO (2003). Leaf gas exchange, chlorophyll fluorescence and growth responses of Genipa americana seedlings to soil flooding. Environ. Exp. Bot. 50(3):221-231.
Crossref

 
 

Oliveira AKM, De Gualtieri SCJ, Bocchese RA (2011). Gas exchange of potted Tabebuia aurea plants under hydric stress. Acta Sci. Agron. 33(4):641-647.
Crossref

 
 

Oliveria MAJ, Bovi MLA, Machado EC, Gomes MMA, Habermann G, Rodrigues JD (2002). Fotossíntese, condutância estomática e transpiração em pupunheira sob deficiência hídrica. Sci. Agric. 59:59-63.
Crossref

 
 

Pinheiro C, Chaves MM (2011). Photosynthesis and drought: can we make metabolic connections from available data? J. Exp. Bot. 62:869-882.
Crossref

 
 

Pompelli MF, Barata-Luís R, Vitorino HS, Gonçalves ER, Rolim EV, Santos MG, Almeida-Cortez JS, Ferreira VM, Lemos EE, Endres L (2010). Photosynthesis, photoprotection and antioxidant activity of purging nut under drought deficit and recovery. Biomass Bioenergy 34(8):1207-1215.
Crossref

 
 

Reis FO, Campostrini E (2011). Microaspersão de água sobre a copa: um estudo relacionado às trocas gasosas e à eficiência fotoquímica em plantas de mamoeiro. Rev. Bras. Agrociênc. 17:284-295.

 
 

Rohácek K (2002). Chlorophyll fluorescence parameters: the definitions, photosynthetic meaning, and mutual relationships. Photosynthetica 40(1):13-29.
Crossref

 
 

Sakamoto A, Murata N (2002). The role of glycine betaine in the protection of plants from stress: clues from transgenic plants. Plant Cell Environ. 25:163-171.
Crossref

 
 

Santos MS, Carneiro PIB, Wosiacki G, Petkowicz CLO, Carneiro EBB (2009). Caracterização físico-química, extração e análise de pectinas de frutos de Campomanesia xanthocarpa B. (Gabiroba). Ciênc. Agrár. 30:101-106.

 
 

Scalon SPQ, Kodama FM, Dresch DM, Mussury RM, Pereira ZV (2015). Gas exchange and photosynthetic activity in Hancornia speciosa Gomes seedlings under water deficit conditions and during rehydration. Biosci. J. 31:1124-1132.
Crossref

 
 

Scholander PF, Hammel HT, Hemmingsen EA, Bradstreet ED (1964). Hydrostatic pressure and osmotic potential in leaves of mangroves and some other plants. P. Natl. Acad. Sci. USA 52:119-125.
Crossref

 
 

Seixas GB (2009). Determinação da transpiração em plantas de Nim Indianos (Azadiracha Indica A. Juss) utilizando métodos de estimativa de fluxo de seiva. Dissertação (Mestrado em Física Ambiental) – Universidade Federal de Mato Grosso, MT 88 p.

 
 

Silva EN, Ferreira SLS, Fontenele AV, Ribeiro RV, Viégas RA, Silveria JAG (2010). Photosynthetic changes and protective mechanisms against oxidative damage subjected to isolated and combined drought and heat stresses in Jatropha curcas plants. J. Plant Physiol. 167:1157-1164.
Crossref

 
 

Sircelj H, Tauszb M, Grill D, Batic F (2007). Detecting different levels of drought stress in apple trees (Malus domestica Borkh.) with selected biochemical and physiological parameters. Sci. Hortic. 113:362-369.
Crossref

 
 

Sofo A, Dichio B, Xiloyannis C, Maisa A (2004). Effects of different irradiance levels on some antioxidant enzymes and on malondialdehyde content during rewatering in olive tree. Plant Sci. 166(2):293-302.
Crossref

 
 

Souza RP, Machado EC, Silva JAB, Lagôa AMMA, Silveira, JAG (2004). Photosynthetic gas exchange, chlorophyll fluorescence and some associated metabolic changes in cowpea (Vigna unguiculata) during water stress and recovery. Environ. Exp. Bot. 51(1)45-56.
Crossref

 
 

Taiz L, Zeiger E (2013). Fisiologia vegetal, 5ª edição Internacional. Ed. Artmed. 954p.

 
 

Tang AC, Kawamitsu Y, Kanechi M, Boyer JS (2002). Photosynthetic oxygen evolution at low water potential in leaf discs lacking an epidermis. Ann. Bot. 89:861-870.
Crossref

 
 

Tatagiba SD, Moraes GABK, Nascimento KJT, Peloso AF (2014). Limitações fotossintéticas em folhas de plantas de tomateiro submetidas a crescentes concentrações salinas. Rev. Eng. Agric. 22:138-149.
Crossref

 
 

Warren CR, Aranda I, Cano FJ (2011). Responses to water stress of gas exchange and metabolites in Eucalyptus and Acacia spp. Plant Cell Environ. 34:1609 1629.
Crossref

 
 

Xu Z, Zhou G, Shimizu H (2009). Are plant growth and photosynthesis limited by predrought following rewatering in grass? J. Exp. Bot. 60(13):37-49.
Crossref