This work is licensed under the Creative Commons Attribution 4.0 International License.
Alkalia-Tuvia S., Goren A., Perzelan Y., Weinberg T., Fallik E. 2014. The influence of colored shade nets on pepper quality after harvest – a possible mode-of-action. Agriculture and Forestry 60(2): 7–18.Alkalia-TuviaS.GorenA.PerzelanY.WeinbergT.FallikE.2014The influence of colored shade nets on pepper quality after harvest – a possible mode-of-actionAgriculture and Forestry602718Search in Google Scholar
Choi H.W., Kim Y.J., Lee S.C., Hong J.K., Hwang B.K. 2007. Hydrogen peroxide generation by the pepper extracellular peroxidase CaPO2 activates local and systemic cell death and defense response to bacterial pathogens. Plant Physiology 145(3): 890–904. DOI:
10.1104/pp.107.103325.ChoiH.W.KimY.J.LeeS.C.HongJ.K.HwangB.K.2007Hydrogen peroxide generation by the pepper extracellular peroxidase CaPO2 activates local and systemic cell death and defense response to bacterial pathogensPlant Physiology145389090410.1104/pp.107.103325204880617905862Open DOISearch in Google Scholar
Cohen S., Möller M., Pirkner M., Tanny J. 2014. Measuring radiometric properties of screens used as crop covers. Acta Horticulturae 1015: 191–199. DOI:
10.17660/actahortic.2014.1015.21.CohenS.MöllerM.PirknerM.TannyJ.2014Measuring radiometric properties of screens used as crop coversActa Horticulturae101519119910.17660/actahortic.2014.1015.21Open DOISearch in Google Scholar
Day S.D. 2014. Biological and mechanical approaches to sunscald management in bell pepper production. MS Thesis, Utah State University, Logan, USA, 150 p. DOI:
10.26076/9131-577c.DayS.D.2014Biological and mechanical approaches to sunscald management in bell pepper productionMS Thesis,Utah State UniversityLogan, USA15010.26076/9131-577cOpen DOISearch in Google Scholar
Díaz-Pérez J.C. 2013. Bell pepper (Capsicum annum L.) crop as affected by shade level: microenvironment, plant growth, leaf gas exchange, and leaf mineral nutrient concentration. HortScience 48(2): 175–182. DOI:
10.21273/hortsci.48.2.175.Díaz-PérezJ.C.2013Bell pepper (Capsicum annum L.) crop as affected by shade level: microenvironment, plant growth, leaf gas exchange, and leaf mineral nutrient concentrationHortScience48217518210.21273/hortsci.48.2.175Open DOISearch in Google Scholar
Díaz-Pérez J.C. 2014. Bell pepper (Capsicum annum L.) crop as affected by shade level: fruit yield, quality, and post-harvest attributes, and incidence of Phytophthora blight (caused by Phytophthora capsici Leon.). HortScience 49(7): 891–900. DOI:
10.21273/hortsci.49.7.891.Díaz-PérezJ.C.2014Bell pepper (Capsicum annum L.) crop as affected by shade level: fruit yield, quality, and post-harvest attributes, and incidence of Phytophthora blight (caused by Phytophthora capsici Leon.)HortScience49789190010.21273/hortsci.49.7.891Open DOISearch in Google Scholar
Díaz-Pérez J.C., Muy-Rangel M.D., Mascorro A.G. 2007. Fruit size and stage of ripeness affect postharvest water loss in bell pepper fruit (Capsicum annuum L.). Journal of the Science of Food and Agriculture 87(1): 68–73. DOI:
10.1002/jsfa.2672.Díaz-PérezJ.C.Muy-RangelM.D.MascorroA.G.2007Fruit size and stage of ripeness affect postharvest water loss in bell pepper fruit (Capsicum annuum L.)Journal of the Science of Food and Agriculture871687310.1002/jsfa.2672Open DOISearch in Google Scholar
Díaz-Pérez J.C., St. John K., Kabir M.Y., Alvarado-Chávez J.A., Cutiño-Jiménez A.M., Bautista J. et al. 2020. Bell pepper (Capsicum annum L.) under colored shade nets: fruit yield, postharvest transpiration, color, and chemical composition. HortScience 55(2): 181–187. DOI:
10.21273/hortsci14464-19.Díaz-PérezJ.C.St. JohnK.KabirM.Y.Alvarado-ChávezJ.A.Cutiño-JiménezA.M.BautistaJ.2020Bell pepper (Capsicum annum L.) under colored shade nets: fruit yield, postharvest transpiration, color, and chemical compositionHortScience55218118710.21273/hortsci14464-19Open DOISearch in Google Scholar
Durrant W.E., Dong X. 2004. Systemic acquired resistance. Annual Review of Phytopathology 42(1): 185–209. DOI:
10.1146/annurev.phyto.42.040803.140421.DurrantW.E.DongX.2004Systemic acquired resistanceAnnual Review of Phytopathology42118520910.1146/annurev.phyto.42.040803.14042115283665Open DOISearch in Google Scholar
Dutta B., Langston D.B., Luo X., Carlson S., Kichler J., Gitaitis R. 2017. A risk assessment model for bacterial leaf spot of pepper (Capsicum annuum), caused by Xanthomonas euvesicatoria, based on concentrations of macronutrients, micronutrients, and micronutrient ratios. Phytopathology 107(11): 1331–1338. DOI:
10.1094/phyto-05-17-0187-r.DuttaB.LangstonD.B.LuoX.CarlsonS.KichlerJ.GitaitisR.2017A risk assessment model for bacterial leaf spot of pepper (Capsicum annuum), caused by Xanthomonas euvesicatoria, based on concentrations of macronutrients, micronutrients, and micronutrient ratiosPhytopathology107111331133810.1094/phyto-05-17-0187-r28686086Open DOISearch in Google Scholar
Elad Y., Messika Y., Brand M., David D.R., Sztejnberg A. 2007. Effect of colored shade nets on pepper powdery mildew (Leveillula taurica). Phytoparasitica 35(3): 285–299. DOI:
10.1007/bf02981163.EladY.MessikaY.BrandM.DavidD.R.SztejnbergA.2007Effect of colored shade nets on pepper powdery mildew (Leveillula taurica)Phytoparasitica35328529910.1007/bf02981163Open DOISearch in Google Scholar
Espinoza W. 1991. Manual de produção de tomate industrial no vale do São Francisco. Companhia de Desenvolvimento do Vale do Sâo Francisco, IICA, DF, Brasil, 301 p. https://repositorio.iica.int/handle/11324/9479. [in Portuguese]EspinozaW.1991Manual de produção de tomate industrial no vale do São FranciscoCompanhia de Desenvolvimento do Vale do Sâo Francisco, IICA, DFBrasil301https://repositorio.iica.int/handle/11324/9479. [in Portuguese]Search in Google Scholar
Ferreira R.C., Bezerra R.C., Rosa J.Q.S. 2014. Effects of light intensity modification by reflective aluminized screenhouse on sweet pepper growth and yield. Engenharia Agrícola 34(4): 626–635. DOI:
10.1590/s0100-69162014000400003.FerreiraR.C.BezerraR.C.RosaJ.Q.S.2014Effects of light intensity modification by reflective aluminized screenhouse on sweet pepper growth and yieldEngenharia Agrícola34462663510.1590/s0100-69162014000400003Open DOISearch in Google Scholar
Gerard C.J., Hipp B.W. 1968. Blossom-end rot of ‘Chico’ and ‘Chico Grande’ tomatoes. Proceedings of the American Society for Horticultural Science 93: 521–531.GerardC.J.HippB.W.1968Blossom-end rot of ‘Chico’ and ‘Chico Grande’ tomatoesProceedings of the American Society for Horticultural Science93521531Search in Google Scholar
Gholamnejad S., Haghighi M., Etemadi N., Pessarakli M. 2022. Effects of boron on nutrient partitioning, Ca movement, and fruit quality of tomatoes. Journal of Plant Nutrition, pp. 1–17. DOI:
10.1080/01904167.2022.2071731.GholamnejadS.HaghighiM.EtemadiN.PessarakliM.2022Effects of boron on nutrient partitioning, Ca movement, and fruit quality of tomatoesJournal of Plant Nutrition11710.1080/01904167.2022.2071731Open DOISearch in Google Scholar
Harpaz I. 1982. Nonpesticidal control of vector-borne viruses. In: Harris K.F., Maramorosch K. (Eds.), Pathogens, Vectors, and Plant Diseases: Approaches to Control. Academic Press, USA, pp. 1–21.HarpazI.1982Nonpesticidal control of vector-borne virusesIn:HarrisK.F.MaramoroschK.(Eds.),Pathogens, Vectors, and Plant Diseases: Approaches to ControlAcademic PressUSA12110.1016/B978-0-12-326440-4.50005-4Search in Google Scholar
Ho L.C., White P.J. 2005. A cellular hypothesis for the induction of blossom-end rot in tomato fruit. Annals of Botany 95(4): 571–581. DOI:
10.1093/aob/mci065.HoL.C.WhiteP.J.2005A cellular hypothesis for the induction of blossom-end rot in tomato fruitAnnals of Botany95457158110.1093/aob/mci065424685515642726Open DOISearch in Google Scholar
Ilić Z.S., Milenković L., Stanojević L., Cvetković D., Fallik E. 2012. Effects of the modification of light intensity by color shade nets on yield and quality of tomato fruits. Scientia Horticulturae 139: 90–95. DOI:
10.1016/j.scienta.2012.03.009.IlićZ.S.MilenkovićL.StanojevićL.CvetkovićD.FallikE.2012Effects of the modification of light intensity by color shade nets on yield and quality of tomato fruitsScientia Horticulturae139909510.1016/j.scienta.2012.03.009Open DOISearch in Google Scholar
Kabir M.Y., Díaz-Pérez J.C., Nambeesan S.U. 2020. Effect of shade levels on plant growth, physiology, and fruit yield in bell pepper (Capsicum annuum L.). Acta Horticulturae 1268: 311–318. DOI:
10.17660/actahortic.2020.1268.42.KabirM.Y.Díaz-PérezJ.C.NambeesanS.U.2020Effect of shade levels on plant growth, physiology, and fruit yield in bell pepper (Capsicum annuum L.)Acta Horticulturae126831131810.17660/actahortic.2020.1268.42Open DOISearch in Google Scholar
Kabir M.Y., Nambeesan S.U., Bautista J., Díaz-Pérez J.C. 2021. Effect of irrigation level on plant growth, physiology and fruit yield and quality in bell pepper (Capsicum annuum L.). Scientia Horticulturae 281; 109902; 13 p. DOI: 10.1016/j.scienta.2021.109902.KabirM.Y.NambeesanS.U.BautistaJ.Díaz-PérezJ.C.2021Effect of irrigation level on plant growth, physiology and fruit yield and quality in bell pepper (Capsicum annuum L.)Scientia Horticulturae28110990213 p.10.1016/j.scienta.2021.109902Open DOISearch in Google Scholar
Kabir M.Y., Nambeesan S.U., Bautista J., Díaz-Pérez J.C. 2022. Plant water status, plant growth, and fruit yield in bell pepper (Capsicum annum L.) under shade nets. Scientia Horticulturae 303; 111241. DOI:
10.1016/j.scienta.2022.111241.KabirM.Y.NambeesanS.U.BautistaJ.Díaz-PérezJ.C.2022Plant water status, plant growth, and fruit yield in bell pepper (Capsicum annum L.) under shade netsScientia Horticulturae30311124110.1016/j.scienta.2022.111241Open DOISearch in Google Scholar
Kinkema M., Fan W., Dong X. 2000. Nuclear localization of NPR1 is required for activation of PR gene expression. Plant Cell 12(12): 2339–2350. DOI:
10.1105/tpc.12.12.2339.KinkemaM.FanW.DongX.2000Nuclear localization of NPR1 is required for activation of PR gene expressionPlant Cell12122339235010.1105/tpc.12.12.233910222211148282Open DOISearch in Google Scholar
Livak K.J., Schmittgen T.D. 2001. Analysis of relative gene expression data using real-time quantitative PCR and the 2−ΔΔCT method. Methods 25(4): 402–408. DOI:
10.1006/meth.2001.1262.LivakK.J.SchmittgenT.D.2001Analysis of relative gene expression data using real-time quantitative PCR and the 2−ΔΔCT methodMethods25440240810.1006/meth.2001.126211846609Open DOISearch in Google Scholar
Lufu R., Ambaw A., Opara U.L. 2020. Water loss of fresh fruit: Influencing pre-harvest, harvest and posthar-vest factors. Scientia Horticulturae 272; 109519; 19 p. DOI:
10.1016/j.scienta.2020.109519.LufuR.AmbawA.OparaU.L.2020Water loss of fresh fruit: Influencing pre-harvest, harvest and posthar-vest factorsScientia Horticulturae27210951919 p.10.1016/j.scienta.2020.109519Open DOISearch in Google Scholar
Maughan T., Drost D., Black B., Day S. 2017. Using shade for fruit and vegetable production. All Current Publications; 1654, Utah State University, USA. https://digitalcommons.usu.edu/extension_curall/1654MaughanT.DrostD.BlackB.DayS.2017Using shade for fruit and vegetable productionAll Current Publications1654, Utah State University, USA. https://digitalcommons.usu.edu/extension_curall/1654Search in Google Scholar
Nahar K., Gretzmacher R. 2002. Effect of water stress on nutrient uptake, yield and quality of tomato (Lycopersicon esculentum Mill.) under subtropical conditions. Die Bodenkultur: Journal for Land Management, Food and Environment 53(1): 45–51.NaharK.GretzmacherR.2002Effect of water stress on nutrient uptake, yield and quality of tomato (Lycopersicon esculentum Mill.) under subtropical conditionsDie Bodenkultur: Journal for Land Management, Food and Environment5314551Search in Google Scholar
Olle M., Bender I. 2009. Causes and control of calcium deficiency disorders in vegetables: a review. Journal of Horticultural Science and Biotechnology 84(6): 577–584. DOI:
10.1080/14620316.2009.11512568.OlleM.BenderI.2009Causes and control of calcium deficiency disorders in vegetables: a reviewJournal of Horticultural Science and Biotechnology84657758410.1080/14620316.2009.11512568Open DOISearch in Google Scholar
Rylski I. 1985. Improvement of pepper fruit quality and timing of harvest by shading under high solar radiation conditions. Acta Horticulturae 191: 221–228. DOI:
10.17660/actahortic.1986.191.23.RylskiI.1985Improvement of pepper fruit quality and timing of harvest by shading under high solar radiation conditionsActa Horticulturae19122122810.17660/actahortic.1986.191.23Open DOISearch in Google Scholar
Rylski I., Spigelman M. 1986. Effect of shading on plant development, yield and fruit quality of sweet pepper grown under conditions of high temperature and radiation. Scientia Horticulturae 29(1–2): 31–35. DOI:
10.1016/0304-4238(86)90028-2.RylskiI.SpigelmanM.1986Effect of shading on plant development, yield and fruit quality of sweet pepper grown under conditions of high temperature and radiationScientia Horticulturae291–2313510.1016/0304-4238(86)90028-2Open DOISearch in Google Scholar
Santana J.G., Balbino M.A., Tavares T.R., Bezerra R.S., Farias J.G., Ferreira R.C. 2012. Effect of photoselective screens in the development and productivity of red and yellow sweet pepper. Acta Horticulturae 956: 493–500. DOI:
10.17660/actahortic.2012.956.58.SantanaJ.G.BalbinoM.A.TavaresT.R.BezerraR.S.FariasJ.G.FerreiraR.C.2012Effect of photoselective screens in the development and productivity of red and yellow sweet pepperActa Horticulturae95649350010.17660/actahortic.2012.956.58Open DOISearch in Google Scholar
Saure M.C. 2001. Blossom-end rot of tomato (Lycopersicon esculentum Mill.) – a calcium- or a stress-related disorder? Scientia Horticulturae 90(3–4): 193–208. DOI:
10.1016/s0304-4238(01)00227-8.SaureM.C.2001Blossom-end rot of tomato (Lycopersicon esculentum Mill.) – a calcium- or a stress-related disorder?Scientia Horticulturae903–419320810.1016/s0304-4238(01)00227-8Open DOISearch in Google Scholar
Schmittgen T.D., Livak K.J. 2008. Analyzing real-time PCR data by the comparative CT method. Nature Protocols 3(6): 1101–1108. DOI:
10.1038/nprot.2008.73.SchmittgenT.D.LivakK.J.2008Analyzing real-time PCR data by the comparative CT methodNature Protocols361101110810.1038/nprot.2008.7318546601Open DOISearch in Google Scholar
Shahak Y. 2014. Photoselective netting: an overview of the concept, R&D and practical implementation in agriculture. Acta Horticulturae 1015: 155–162. DOI:
10.17660/actahortic.2014.1015.17.ShahakY.2014Photoselective netting: an overview of the concept, R&D and practical implementation in agricultureActa Horticulturae101515516210.17660/actahortic.2014.1015.17Open DOISearch in Google Scholar
Shahak Y., Gal E., Offir Y., Ben-Yakir D. 2008. Photoselective shade netting integrated with greenhouse technologies for improved performance of vegetable and ornamental crops. Acta Horticulturae 797: 75–80. DOI:
10.17660/actahortic.2008.797.8.ShahakY.GalE.OffirY.Ben-YakirD.2008Photoselective shade netting integrated with greenhouse technologies for improved performance of vegetable and ornamental cropsActa Horticulturae797758010.17660/actahortic.2008.797.8Open DOISearch in Google Scholar
Taylor M.D., Locascio S.J. 2004. Blossom-end rot: a calcium deficiency. Journal of Plant Nutrition 27(1): 123–139. DOI:
10.1081/pln-120027551.TaylorM.D.LocascioS.J.2004Blossom-end rot: a calcium deficiencyJournal of Plant Nutrition27112313910.1081/pln-120027551Open DOISearch in Google Scholar
Taylor M.D., Locascio S.J., Alligood M.R. 2004. Blossom-end rot incidence of tomato as affected by irrigation quantity, calcium source, and reduced potassium. HortScience 39(5): 1110–1115. DOI:
10.21273/hortsci.39.5.1110.TaylorM.D.LocascioS.J.AlligoodM.R.2004Blossom-end rot incidence of tomato as affected by irrigation quantity, calcium source, and reduced potassiumHortScience3951110111510.21273/hortsci.39.5.1110Open DOISearch in Google Scholar
USDA 2005. United States Standards for Grades of Sweet Peppers. United States Department of Agriculture. https://www.ams.usda.gov/grades-standards/sweet-peppers-grades-and-standardsUSDA2005United States Standards for Grades of Sweet PeppersUnited States Department of Agriculturehttps://www.ams.usda.gov/grades-standards/sweet-peppers-grades-and-standardsSearch in Google Scholar
Zakher A.G., Abdrabbo M.A.A. 2014. Reduce the harmful effect of high temperature to improve the productivity of tomato under conditions of newly reclaimed land. Egyptian Journal of Horticulture 41(2): 151–167. DOI:
10.21608/ejoh.2014.1360.ZakherA.G.AbdrabboM.A.A.2014Reduce the harmful effect of high temperature to improve the productivity of tomato under conditions of newly reclaimed landEgyptian Journal of Horticulture41215116710.21608/ejoh.2014.1360Open DOISearch in Google Scholar
Zhang H.Z., Cai X.Z. 2005. Nonexpressor of pathogenesis-related genes 1 (NPR1): a key node of plant disease resistance signalling network. Chinese Journal of Biotechnology 21(4): 511–515. [in Chinese with English abstract]ZhangH.Z.CaiX.Z.2005Nonexpressor of pathogenesis-related genes 1 (NPR1): a key node of plant disease resistance signalling networkChinese Journal of Biotechnology214511515[in Chinese with English abstract]Search in Google Scholar
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