Some factors affecting the yield and quality of sweet pepper (Capsicum annuum L.) cv. Domino : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Plant Science (Horticulture) at Massey University

dc.contributor.authorTadesse, Teshome
dc.date.accessioned2011-09-28T22:09:41Z
dc.date.available2011-09-28T22:09:41Z
dc.date.issued1997
dc.description.abstractA series of studies were undertaken to examine some of the factors which influence yield and quality in sweet pepper. In the first study the influence of soil moisture status (stress and control) and harvesting regime (Green, Green-Red and Red) on growth, yield and Blossom-End Rot (BER) incidence on sweet pepper (Capsicum annuum L.) cv. Domino was carried out alongside a second experiment which examined the effect of water stress on fruit growth, and dry matter production and partitioning of destructively harvested sweet pepper plants. These studies revealed that water stress reduced fruit number, and fresh and dry weights, increased fruit dry matter and hastened fruit maturity, but the stage of harvesting had no effect on both vegetative and reproductive yields. Water stress and harvesting stage had also little effect on the incidence of BER. An analysis showed that water stressed plants had a slightly higher incidence of BER than control plants. Water stress reduced the Ca concentration of fruit and leaves (which had a higher Ca concentration than fruit). Sweet pepper fruit were the major assimilate sinks 60 days after transplanting and as plants became generative, there was a steady decline in leaf dry weights. RGR and NAR progressively increased while SLA and LAR decreased with plant ontogeny. At the final harvest control plants had accumulated 58% of the dry matter accumulated in their fruit against 49% for the stressed plants. Fruit Ca, Mg and K increased throughout fruit development although most of the Ca accumulated during the early fruit growth period. The concentration of all these elements declined during the rapid fruit growth period 2-4 weeks after anthesis. A gradient in accumulation of Ca, Mg and K in the fruit was found with the stem-end of the fruit having more nutrients than the blossom-end. Both waxing and KOH treatments had little effect in the accumulation of nutrients in the fruit. Treatment with KOH however, slightly increased the concentration and contents of the mineral nutrients studied. Sweet pepper plants were grown under Nutrient Film Technique (NFT) system using a nutrient solution of EC 2 mS.cm-1. Higher nutrient conductivity levels of 4, 6, 8 and 10 mS.cm-1 were achieved by adding concentrated KCl solution to the basic nutrient, and a high Ca solution with an EC of 10 mS.cm-1 was developed with a mixture of KCl and CaCl2 at a ratio of 3:1 (w/w). Higher nutrient conductivity induced higher BER incidence which was related to the suppression of Ca uptake and accumulation in the fruit. This was accompanied by an increase in the accumulation of Mg and particularly K. Extra Ca at higher EC level promoted the accumulation of Ca by the fruit and reduced the incidence of BER. The reduction in Ca uptake in the fruit at higher EC was more pronounced at the blossom end of the fruit. Fractionation of Ca compounds revealed that high EC levels reduced the physiologically active acetic acid soluble Ca compound, particularly during the rapid fruit growth stage when BER was likely to appear. Higher solution conductivity further reduced the accumulation of Ca in the roots and leaves while increasing those of Mg and K. Higher conductivity of the nutrient solution resulted in small sized fruit, reduced fruit dry weights, decreased vegetative yields in terms of lower leaf area, SLA, diversion of more assimilates to shoots than fruit, decreased water consumption, decreased leaf Ψ, decreased fruit firmness, increased leaf stomatal resistance, fruit dry matter content, fruit respiration and ethylene production and advancing fruit colour change. Enclosing sweet pepper fruit with hygroscopic materials such as CaCl2 and NaCl reduced the RH around the fruit and promoted Ca accumulation by the fruit. Fruit enclosed in polyethylene bags without the hygroscopic materials however, had higher RH and this suppressed Ca accumulation by the fruit. The use of an air flow system to regulate the RH around the fruit had a similar effect. High RH treatment particularly reduced the Ca concentration in the distal part of the fruit which resulted in more BER. This incidence was related to fruit Ca concentration and content as well as the ratio of Ca to Mg and K. Humidity however, had little effect on sweet pepper fruit growth and the accumulation of Mg and K. Sweet pepper is considered to be a non climacteric fruit which is independent of ethylene for ripening. Characterization of the changes in PiC2H4, PiCO2, PiO2 as well as colour change in mature green fruit at 20°C showed that PiC2H4 significantly increased in both attached and detached fruit coincident with colour change. Detached fruit showed a steady decline in PiCO2 while attached fruit showed an increase in PiCO2 during ripening with out the climacteric. It is speculated that the decline in PiCO2 and the lower magnitude of PiC2H4 in detached fruit was a result of egress of these gases through the pedicel rather than apparent difference in ripening physiology of attached and detached fruit. It was also suggested that the lack of climacteric respiration in attached fruit could be due to the overlapping of a CO2 dependent photosynthesis by the fruit which declines with fruit age and fruit respiration which obscured the rise in PiCO2. The association between sweet pepper cv. Domino fruit ripening and the significant increase in PiC2H4 may indicate that ethylene may be responsible for ripening of sweet pepper fruit. The maturity of sweet pepper fruit cv Domino was studied to determine objective maturity indices which correlate with physiological maturity. The attributes evaluated were fruit fresh weight, diameter, length, volume, pericarp thickness, firmness. Changes in surface colour change, TSS, PiCO2, PiC2H4, fruit respiration as well as ethylene production. Fruit size and weight increased slowly during the early growth period and increased rapidly towards maturity. From 8 weeks after anthesis (WAA) until the final harvest there was no a significant change in fruit size although it increased until 9 WAA. Starting from 8 WAA the hue angle values started to decline accompanied by an increase in chroma. Fruit surface colour change also coincided with a significant increase in PiC2H4 and a slight increase in PiCO2, respiration and ethylene production. The change in hue angle values was found to be an effective maturity index due to its correlation with most of the attributes evaluated. This coupled with WAA, TSS and fruit firmness appeared to be good indicators of fruit maturity. On the other hand, treatment of mature green sweet pepper fruit cv. Domino with 1000 μl.l-1 ethylene promoted ripening by advancing colour change, TSS and acidity of treated fruit as compared with control. The treatment also increased fruit respiration and PiCO2. However, treatment of half ripe fruit of the same cv. had less marked effect than mature green fruit. Treating sweet pepper fruit of the cv Evidence with ethylene at different maturity stage however, had no effect on colour change.en_US
dc.identifier.urihttp://hdl.handle.net/10179/2729
dc.language.isoenen_US
dc.publisherMassey Universityen_US
dc.rightsThe Authoren_US
dc.subjectSweet peppersen_US
dc.subjectCapsicumsen_US
dc.subjectYielden_US
dc.subjectQualityen_US
dc.titleSome factors affecting the yield and quality of sweet pepper (Capsicum annuum L.) cv. Domino : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Plant Science (Horticulture) at Massey Universityen_US
dc.typeThesisen_US
massey.contributor.authorTadesse, Teshome
thesis.degree.disciplinePlant Science
thesis.degree.grantorMassey University
thesis.degree.levelDoctoral
thesis.degree.levelDoctoralen
thesis.degree.nameDoctor of Philosophy (Ph.D.)
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