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Yield and quality response of hydroponically grown tomatoes (Lycopersicon esculentum Mill.) to nitrogen source and growth medium

Dissertation (PhD)--Stellenbosch University, 2004. / ENGLISH ABSTRACT: Pine sawdust-shavings (Pinus spp.) is at present a very popular soilless substrate in
South African greenhouses. Growers use fresh pine sawdust-shavings as a substrate,
which is biologically highly unstable. The greenhouse industry is looking at
alternative organic substrates such as coco peat, which already went through a
decomposition process and is more stable. A biological inactive substrate such as sand
was included to compare microorganism activity with organic substrates. The main
objective of this study was to compare the growth, yield and quality of hydroponically
grown tomatoes in response to different growth mediums in combination with
nitrogen source, irrigation frequency, period of substrate use and liming. In general
the drainage water pH declined with an increase in NlLt+-N in the nutrient solution.
Low pH values in the drainage water, especially when coco peat was used, had a
detrimental effect on marketable yield. The drainage water pH of pine sawdustshavings
increased during the growing season when 100 % N03--N was used. Due to
the higher cation exchange capacity of coco peat, the drainage water electrical
conductivity tends to increase more rapidly than with pine sawdust-shavings, during
conditions with high temperatures and when insufficient irrigation volumes per
irrigation cycle is applied. As expected the drainage water N03--N content decreased
as the NlLt+-N content increased in the nutrient solution. Pine sawdust-shavings
recorded a much lower N03--N and NlLt+-N content than sand and coco peat and thus
supports the hypothesis that microbiological activity is higher in pine sawdustshavings,
especially in the second season of substrate use. Coco peat produced the
highest number of marketable fruit and yield per plant, followed by pine sawdustshavings
and sand in the first season of substrate use. The number of marketable fruit
and yield decreased with an increase in NlLt+-N content in the nutrient solution during
production in warmer, summer conditions. Contrary to these fmdings, production in
cooler, winter conditions recorded high yields when only N03--N or 80% N03--N :
20% NRt +-N was applied. The unmarketable yield increased with an increase in
NlLt+-N in the nutrient solution. Visual evaluations showed that blossom-end rot
(BER) was the main contributor to unmarketable yield. Increasing levels ofN03--N as
nitrogen source in the nutrient solution, reduced weight loss and increased the loss of
fruit firmness of tomatoes during storage. Increasing levels of N03 --N also increased
fruit pH and reduced total titratable acidity. Coco peat produced fruit with a higher pH
than pine sawdust-shavings. An increase in irrigation frequency affected fruit firmness
negatively when coco peat was used as substrate. Different irrigation and fertigation
practices are needed for different growth mediums and management needs to be
adapted according to the growing season (winter vs. summer). / AFRIKAANSE OPSOMMING: 'n Mengsel van dennesaagsels en -skaafsels (Pinus spp.) word tans deur Suid-
Afrikaanse kweekbuisprodusente gebruik as grondlose groeimedium. Hierdie
groeimedium word nie vooraf gekomposteer nie en is dus biologies onstabiel. Die
kweekbuisindustrie ondersoek tans die gebruik van alternatiewe, gekomposteerde en
stabiele organiese groeimediums soos kokosveen. 'n Biologies onaktiewe
groeimedium soos sand is ook ingesluit om met organiese groeimediums te kan
vergelyk. Die hoof doelwit van die studie was om plantontwikkeling, opbrengs en
kwaliteit van hidroponies geproduseerde tamaties te evalueer in verskillende
groeimediums en in kombinasie met stikstofbron-verhouding, periode van
groeimedium gebruik, besproeiingsfrekwensie en bekalking. Oor die algemeen het die
pH in die dreinaat gedurende die groeiseisoen toegeneem soos die NH/-N inhoud
verhoog het in die voedingsoplossing. Lae pH waardes in die dreinaat, veral waar
kokosveen gebruik was, het 'n nadelige effek op bemarkbare opbrengs gehad. Die pH
in die dreinaat van dennesaagsels en -skaafsels het gedurende die groeiseisoen
toegeneem met die gebruik van 100% NO)--N in die voedingsoplossing. Die
elektriese geleiding in die dreinaat van kokosveen neem vinniger toe gedurende
toestande waarin hoë temperature en onder besproeiing voorkom, as in dreinaat van
dennesaagsels en -skaafsels. Die NO)--N inhoud in die dreinaat het soos verwag
afgeneem soos die NRt+-N inhoud in die voedingsoplossing toegeneem het. 'n Baie
laer NO)--N en NRt+-N inhoud is by dennesaagsels en -skaafsels aangeteken wat dus
die hipotese ondersteun dat mikrobiologiese aktiwiteit, veral in die tweede seisoen
van gebruik, hoër is in dennesaagsels en -skaafsels as in sand en kokosveen.
Kokosveen het die hoogste aantal bemarkbare vrugte en massa per plant geproduseer,
gevolg deur dennesaagsels en -skaafsels en sand. Die aantal bemarkbare vrugte en
opbrengs het verlaag met 'n verhoging in NRt+-N in die voedingsoplossing gedurende
warm, somer toestande. In teenstelling met vorige resultate is gevind dat 100% NO)--
N of 80% NO)--N : 20% NRt+-N hoë opbrengste gelewer het gedurende koeler,
winter toestande. Die onbemarkbare opbrengs het verhoog met hoër NRt+-N vlakke.
Visuele waarnemings het aangedui dat blom-end verrotting die grootste bydrae tot
onbemarkbare opbrengs gelewer het. 'n Verhoging in NO)--N vlakke het massaverlies
beperk en die verlies in fermheid verhoog gedurende opberging. Hoër NO)--N vlakke
het ook die pH van vrugte verhoog en die totale titreerbare suur verlaag. Kokosveen
het vrugte met 'n hoër pH as dennesaagsels en -skaafsels geproduseer. 'n Toename in
besproeiingsfrekwensie het vrug fermheid negatief beïnvloed wanneer kokosveen as
groeimedium gebruik was. Verskillende besproeiings- en voedingspraktyke word
benodig vir verskillende groeimediums en bestuur van die groeimediums moet
aangepas word by klimaatstoestande gedurende die spesifieke produksieseisoen.

Identiferoai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:sun/oai:scholar.sun.ac.za:10019.1/50232
Date12 1900
CreatorsLangenhoven, Petrus
ContributorsAgenbag, G. A., Du Preez, C. C., Stellenbosch University. Faculty of AgriSciences. Dept. of Agronomy.
PublisherStellenbosch : Stellenbosch University
Source SetsSouth African National ETD Portal
Languageen_ZA
Detected LanguageUnknown
TypeThesis
Format213 p.
RightsStellenbosch University

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