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Effects of packaging and postharvest cooling on quality of table grapes (Vitis vinifera L.)Du Plessis, S. F. (Stephanus Francois) 12 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2003. / ENGLISH ABSTRACT: The table grape industry uses rapid cooling and packaging to protect grapes from desiccation
and decay. Numerous packaging methods and combinations are used in the industry with
each having their own advantages and disadvantages.
Inferior postharvest grape quality can usually be ascribed to either deficient or excessive
moisture in the carton. Berry split, decay and S02 damage are all disorders that are either
caused or aggravated by wet berries in conjunction with elevated temperature. On the other
hand, grapes that are exposed to desiccating conditions will develop brown stems and cause
ineffective control by S02 gas generators. Moisture management is governed by perforated
or non-perforated liners and/or by placing moisture absorbing materials inside the liners. To
find the optimum liner perforation or moisture sheet combination, 'Thompson Seedless' and
'Red Globe' (Vitis vinifera Linnaeus) table grape quality was evaluated in various trials.
The investigation of non-perforated liners compared to liners with different degrees of
perforation concluded the following: Perforated liners benefit grape quality by decreasing
S02 damage and berry split due to less moisture in the carton. These benefits, however, also
lead to loss in quality due to increased stem desiccation and a lower S02 concentration in the
packaging. The lower moisture content in the carton compensates for the lower S02
concentration, creating an environment less favourable for decay development. S02 damage
and berry split decreased with an increase in degree of liner perforation, irrespective of the
cultivars sensitivity to the disorder. Optimum level of perforation depends on the specific
sensitivity of a cultivar to certain quality disorders and the characteristics of the quality
disorders associated with a cultivar. Additionally, packing conditions such as product
temperature and humidity should be considered. The specific costs associated with the
advantages and disadvantages influenced by the degree of liner perforation will be the
deciding factor in liner selection.
The investigation of a clay-containing, moisture absorbing sheet emphasized the benefits and
risks of absorbing large amounts of water within the packaging. Irrespective of using a
perforated or non-perforated liner the influence of the desiccant sheet was evident throughout
the trials. It benefited grape quality by lowering the incidence of berry split and S02 damage. However, decay control was impaired by the desiccant sheet, and stem desiccation was
aggravated.
The comparison of non-perforated liners with liners of various degrees of perforation showed
the benefit of faster cooling rates of perforated liners. The various perforated liners showed
little variation in airflow and cooling times.
Morphological studies of various cultivars could not ascribe differences in stem condition to
anatomical dissimilarities between various cultivars. It was found that 'Red Globe' had a
much larger berry volume to stem weight ratio contributing to a high rate of water loss and
stem dehydration. Stem visibility is high in 'Red Globe' due to the straggly, loose nature of
the bunches. This heightens the perception of dry, brown stems and overemphasizes the
actual severity of the disorder. / AFRIKAANSE OPSOMMING: Die tafeldruifbedryf gebruik versnelde verkoeling en verpakking om druiwe te beskerm teen
uitdroging en bederf. Verskeie verpakkingsmetodes word gebruik in die industrie waarvan
elkeen sy eie voor- en nadele het.
Ondergeskikte na-oes kwaliteit kan gewoonlik toegeskryf word aan óf te min óf te veel vog
in die karton. Korrelbars, S02 skade en bederf is almal kwaliteitsdefekte wat óf veroorsaak
word, óf vererger word deur nat korrels, saam met 'n verhoging in temperatuur. In
teenstelling hiermee sal druiwe wat blootgestel word aan droë toestande, bruin stingels
ontwikkel en S02 beheer salook ondoeltreffend wees. Vog in verpakking word beheer deur
geperforeerde of nie-geperforeerde binnesakke en/of deur vogabsorberende materiaal binne
die binnesak te plaas. Om die optimum binnesak perforasie of vogabsorberende vel
kombinasie te vind is 'Thompson Seedless' en 'Red Globe' (Vitis vinifera Linnaeus)
tafeldruif kwaliteit ge-evalueer in verskeie proewe.
Die bestudering van nie-geperforeerde binnesakke teenoor binnesakke met verskillende grade
van perforasies het die volgende resultate gelewer: Geperforeerde binnesakke bevoordeel
druif kwaliteit deur die vermindering van S02 skade en korrelbars weens minder vog in die
karton. Hierdie voordele sal egter lei tot verlies in kwaliteit weens die vinniger uitdroging
van stingels en die verlaging van S02 konsentrasie in die verpakking. Die laer vog inhoud in
die karton vergoed vir die vermindering van S02 konsentrasie, omdat minder gunstige
toestande vir die ontwikkeling van bederf geskep word. S02 skade en korrelbars het
verminder met 'n vermeerdering van perforasies, ongeag die kultivar se sensitiwiteit vir die
defekte. Optimum vlakke van perforasie is afhanklik van die spesifieke sensititiwiteit van 'n
kultivar tot sekere kwaliteitsdefekte, en eienskappe van die kwaliteitsdefekte wat geassosieer
word met die kultivar. Boonop moet verpakkingsomstandighede soos produktemperatuur en
humiditeit ook in gedagte gehou word. Die spesifieke koste verbonde aan die voor- en nadele
wat beïnvloed word deur die graad van perforasie sal die bepalende faktor wees wanneer 'n
binnesak gekies word.
Die bestudering van 'n klei-bevattende, vogabsorberende vel het bewys dat dit voordele en
risiko's inhou om groot hoeveelhede vog te absorbeer. Ongeag die gebruik van 'n geperforeerde of nie-geperforeerde binnesak, was die invloed van die desikkante vel duidelik
in al die proewe. Dit was voordelig vir druif kwaliteit deurdat dit korrelbars en S02 skade
verminder het. Bederfbeheer is egter verswak deur die desikkante vel, en stingel uitdroging
IS vererger.
Die vergelyking van nie-geperforeerde binnesakke met verskillende grade van geperforeerde
binnesakke het die voordeel bewys van vinniger verkoelinstempo's van die geperforeerde
binnesak. Verskille in die graad van perforasie het 'n klein invloed gehad op die lugvloei en
verkoelingstempo 's.
Bestudering van verskeie kultivars kon geen morfologiese verskille uitwys wat variasie in
stingelkwaliteit tussen kultivars kan verklaar nie. Dit is bevind dat 'Red Globe' 'n baie groter
korrelvolume tot stingelgewig verhouding het. Stingels is meer sigbaar by 'Red Globe'
weens die yl, los aard van die trosse. Dit verhoog die persepsie van droë, bruin stingels en dit
oorbeklemtoon die voorkoms van die defek.
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Stikstofomsettinge in gronde met spesiale verwysing na lupine as bron van stikstof vir boorde en wingerdeFourie, S. 12 1900 (has links)
Thesis (MSc)--Stellenbosch University, 1955. / ENGLISH ABSTRACT: no abstract available / AFRIKAANSE OPSOMMING: geen opsomming
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Effect of fruit maturation and ripening potential for optimum eating quality of 'Forelle' pearsCarmichael, Patricia Cassie 03 1900 (has links)
Thesis (MScAgric (Horticulture))--University of Stellenbosch, 2011. / Includes bibliography. / ENGLISH ABSTRACT: Climatic differences between production areas or seasons directly affect the rate of fruit maturation and the eating quality following storage and ripening. South African ‘Forelle’ pears are harvested at an optimum firmness of 6.4 kg and have mandatory cold storage duration of 12 weeks at -0.5°C to ensure even ripening. The firmness variable alone, however, is not a good indicator of ripening potential. Hence, various maturity variables (ethylene production, ground colour, firmness, total soluble solids (TSS) titratable acidity (TA), and starch breakdown) and their rates of change were evaluated to identify consistent maturity indices that can be reliably used in a prediction model to determine optimum harvest maturity (Chapter 2). This was then related to the ripening potential (Chapter 3) and eating quality (Chapter 4), defined by optimum ‘edible firmness’ (3.5 kg), presence or absence of astringency or mealiness.
Fruit were harvested from three main producing areas: Warm Bokkeveld (WBV), Elgin and Koue Bokkeveld (KBV). Harvesting was done biweekly on five harvest dates over three successive seasons (2007-2009). At harvest, 20 of 240 fruit per block were used to determine maturity using all the mentioned parameters in order to understand their changes and behaviour pre-harvest. The remaining 220 fruit were stored at -0.5°C for three storage durations followed by ripening at 15°C.
At harvest, the 2007 season’s fruit were more advanced in ground colour and were significantly softer (6.7 kg) than the 2008 (7.0 kg) and 2009 (7.1 kg) seasons. Firmness, ground colour, TSS and TA, all displayed a linear relationship with days after full bloom. For the firmness and ground colour, more than 90% and 73%, respectively, was explained by the variation in the linear model, while for the TSS and TA less than 70% could be accounted for by the model.
Fruit harvested before commercial harvest (pre-optimum) in 2007 and 2009 failed to ripen to an ‘edible firmness’ when stored for eight weeks at -0.5oC plus 11 days at 15oC. In 2008, eight weeks storage was sufficient to induce ripening changes in pre-optimum harvested fruit. The development of ripening potential in the 2008 earlier harvested fruit, corresponded with a higher rate of change (3.15 µL.kg-1.h-1.day-1) in ethylene production at 15oC compared to the 2007 (1.98 µL.kg-1.h-1.day-1) and 2009 (1.87 µL.kg-1.h-1.day-1) seasons. The 2007 season fruit experienced maximum incidence of astringency (36.7%) on the first harvested fruit.
In all three seasons, fruit harvested at commercial harvest time and later (optimum and post-optimum), required an eight week storage period to induce ripening. However, the eight weeks storage period developed highest mealiness. More than 40% of the last harvested fruit were mealy after eight weeks at -0.5°C plus seven days at 15°C. Mealiness significantly reduced with prolonged storage at -0.5°C. Fruit from the WBV and Elgin, warmer areas than the KBV, were more prone to mealiness.
In conclusion, firmness was the most consistent variable at harvest and could be used in conjunction with ground colour to determine ‘Forelle’ harvest maturity. Furthermore, the study does not support shortening the current mandatory 12 weeks period at -0.5°C due to the higher incidence of astringency and mealiness. / AFRIKAANSE OPSOMMING: Klimaats verskille tussen produksie areas of seisoene affekteer die tempo van vrugrypwording en eetkwaliteit na opberging en rypwording direk. Suid-Afrikaanse ‘Forelle’ word ge-oes by ‘n optimum fermheid van 6.4 kg en het ‘n verpligte opbergingstydperk van 12 weke by -0.5°C om egalige rypwording te verseker. Die veranderlike ‘fermheid’ is egter nie ‘n goeie aanduiding van die rypheidspotensiaal op sy eie nie. Dus is verskeie rypheidsparameters (etileen produksie, agtergrond kleur, fermheid, total oplosbare vaste stowwe (TOVS), titreerbare suur (TS) en stysel afbraak) en die tempo van verandering ge-evalueer om konstante rypheidsverwysings te identifiseer wat met vertroue in ‘n voorspellingsmodel gebruik kan word om optimum oes rypheid te kan bepaal (Hoofstuk 2). Dit is dan in verband gebring met die rypwordingspotensiaal (Hoofstuk 3) en eetgehalte (Hoofstuk 4), wat gedefiniëer is deur “eetbare fermheid” (3.5 kg), frankheid en melerigheid.
Vrugte is ge-oes uit drie, hoof verbouingsareas: Warm Bokkeveld (WBV), Elgin en Koue Bokkeveld (KBV). By oes is 20 van die 240 vrugte per blok gebruik om die vrug rypheid te bepaal, deur al die bogenoemde parameters te gebruik, om die verandering en reaksie voor oes te begryp. Die oorblywende 220 vrugte is opgeberg by -0.5°C vir drie opbergingstye, gevolg deur rypmaking by 15°C.
By oes was die vrugte van die 2007 seisoen verder gevorderd in agtergrond kleur en betekenisvol sagter (6.7 kg) as die van 2008 (7 kg) en 2009 (7.1 kg). Fermheid, agtergrond kleur, TOVS en TS het almal ‘n lineêre verband getoon met dae na volblom. In geval van fermheid en agtergrond kleur, is meer as onderskeidelik 90% en 73% verklaar deur die variasie in die lineêre model, terwyl in geval van die TOVS en TS, minder as 70% deur die model verklaar kon word.
Vrugte wat voor die kommersiële oes (pre-optimum) ge-oes is in 2007 en 2009, het nie daarin geslaag om ryp te word tot by ‘eetbare fermheid’ na ag weke by -0.5°C en 11 dae by 15°C nie. Daarteenoor kon vrugte wat pre-optimum ge-oes is in 2008, wel geïnduseer word om ryp te word met ag weke opbeging. Die ontwikkeling van die rypwordingspotensiaal van vrugte wat vroeër ge-oes is, stem ooreen met die hoër tempo van verandering (3.15 µL.kg-1.h-1.dag-1) in etileen produksie by 15°C in vergelyking met seisoene 2007 (1.98 µL.kg-1.h-1.dag-1) en 2009(1.87 µL.kg-1.h-1.dag-1). Die 2007 seisoen vrugte het die maksimum voorkoms van frankheid (36.7%) getoon vir vrugte van die eerste oes datum.
In al drie seisoene waar vrugte wat by kommersiële oes of later (optimum en post optimum) ge-oes is, was ‘n ag weke periode van opgeberging voldoende om rypwording te inisiëer, alhoewel die ag weke opberging ook gelei tot die hoogste voorkoms van melerigheid. Meer as 40% van die laat ge-oeste vrugte was melering na ag weke opberging by -0.5°C en sewe dae by 15°C. Melerigheid is betekenisvol verlaag met ‘n verlengde opbergingsperiode by -0.5°C. Vrugte vanaf die WBV en Elgin, warmer areas as die KBV, was meer onderhewig aan melerigheid.
Opsommend was fermheid die reëlmatigste veranderlike by oes en kan tesame met agtergrondkleur, gebruik word om vrugrypheid van ‘Forelle’ te bepaal. Verder het die studie nie ‘n verkorting van die huidige, verpligte 12 week opberingsperiode by -0.5°C gesteun nie, weens die hoë voorkoms van frankheid en melerigheid.
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Membrane studies in Japanese plums (Prunus salicina Lindl.)Jooste, Mariana 12 1900 (has links)
ENGLISH ABSTRACT: The export of Japanese plums from South Africa is challenging, since most cultivars are prone to
develop chilling injury (CI) when stored at low temperatures. This injury manifests as gel
breakdown or internal browning in the mesocarp tissue of the fruit on removal from low storage
temperature conditions, i.e. in the consumer’s fruit basket, who subsequently does not buy plums
again.
Loss of cell membrane integrity and oxidative stress are, respectively, the primary and secondary
physiological responses to CI. The main aim of this study was to investigate changes in cell
membrane composition and levels of antioxidants in plums throughout fruit development and
maturation, during forced air cooling (FAC) and storage under different temperature regimes.
‘Sapphire’ (a chilling susceptible cultivar) accumulated high levels of glutathione and
polyunsaturated fatty acids (PUFAs) during fruit development. Therefore, the cultivar is protected
against lipid peroxidation while developing on the tree, but the high levels of PUFAs, which are
easily oxidised, may cause this cultivar to be chilling susceptible when stored at low temperatures.
It is suggested that the high levels of monounsaturated fatty acids (MUFAs), which are not easily
oxidised, and ascorbic acid that accumulated in ‘Angeleno’ (a chilling resistant cultivar) during fruit
development, render this cultivar CI resistant during long-term cold-storage.
When stored at -0.5 °C, CI development increased at a higher rate, ethylene evolution rates were
higher and water soluble antioxidant activity (HAA), ascorbic acid and glutathione levels, and the
MUFA:PUFA ratio were lower in H2 (more mature) ‘Sapphire’ plums than H1 fruit (less mature).
Therefore, concurrent with H2 fruit having lower levels of antioxidants to quench free radicals
caused by chilling stress, their cell membranes were more vulnerable to oxidation due to their
phospholipid fatty acid composition. H2 fruit also had higher levels of saturated fatty acids, and
hence less fluid cell membranes than H1 fruit when stored at -0.5 °C.
An intermittent warming (IW) regime delayed symptom appearance and reduced CI severity in
plums significantly compared to storage at -0.5 °C. Fruit stored under the IW regime had a more optimal phospholipid fatty acid composition and lower membrane sterol levels under shelf-life
conditions to keep the membranes fluid. It also had higher levels of HAA and lipid soluble
antioxidant activity, ascorbic acid and glutathione, which rendered fruit better protected against
oxidation.
Elevated storage temperatures (2.5 °C to 7.5 °C) caused higher levels of lipid peroxidation or low
ascorbic acid levels and poor fruit quality compared to the IW regime in ‘Sapphire’ plums. ‘Laetitia’
plums stored at 5 °C and 7.5 °C had significantly less CI than under the IW regime, but softened
quicker due to higher ethylene evolution rates.
‘Sapphire’ tolerated both long and short FAC durations, but a slower initial FAC rate prevented CI
manifestation and caused a higher HAA after cold-storage in this fruit. ‘Laetitia’ cooled with a
slower initial FAC rate and for a longer duration resulted in the best fruit quality and had higher
HAA, total phenolic, phospholipid and saturated phospholipid fatty acid concentrations during
storage. / AFRIKAANSE OPSOMMING: Die uitvoer van Japanese pruime vanaf Suid-Afrika hou talle uitdagings in, want die meeste van die
kultivars ontwikkel koueskade wanneer hulle by lae temperature opgeberg word. Koueskade
manifesteer as gelverval of interne verbruining in die mesokarpweefsel van die vrugte wanneer die
vrugte verwyder word uit die lae opbergingstemperatuuromstandighede, m.a.w. in die verbruiker se
vrugtemandjie, wat nie weer pruime koop nie.
Verlies aan selmembraanintegriteit en oksidatiewe druk is, respektiewelik, die primêre and
sekondêre fisiologiese reaksies op koueskade. Die hoofdoel van hierdie studie was om die
veranderinge in selmembraansamestelling en antioksidantkonsentrasie in pruime te ondersoek
tydens vrugontwikkeling en volwassewording, tydens geforseerde lugverkoeling (GLV) en tydens
opberging onder verskillende temperatuurregimes.
‘Sapphire’ (‘n koueskade sensitiewe kultivar) het hoër konsentrasies van glutatioon en polionversadigde
vetsure (POV) tydens vrugontwikkeling geakkumuleer. Dié kultivar is dus voldoende
beskerm teen lipiedperoksidasie tydens vrugontwikkeling aan die boom, maar die hoë
konsentrasies van POVs, wat maklik oksideer, mag veroorsaak dat hierdie kultivar meer
koueskadesensitief is wanneer dit by lae temperature opgeberg word. Die hoë konsentrasies van
mono-onversadigde vetsure (MOV), wat nie maklik oksideer nie, en askorbiensuur wat in
‘Angeleno’ (‘n koueskade weerstandbiedende kultivar) geakkumuleer het tydens vrugontwikkeling,
verleen moontlik weerstandbiedendheid teen koueskade aan hierdie kultivar tydens langtermyn
koelkopbering.
Tydens opberging by -0.5 °C het koueskade ontwikkeling vinniger toegeneem, was
etileenvrystellingstempos hoër en die wateroplosbare antioksidantaktiwiteit (HAA), askorbiensuuren
glutatioonkonsentrasies en die MOV:POV verhouding laer in H2 (meer volwasse) ‘Sapphire’
pruime as in die H1 vrugte (minder volwasse). Dus, tesame met die laer antioksidantkonsentrasies
in die H2 vrugte om die vry radikale veroorsaak deur koelopbering te verminder, was hul
selmembrane ook meer vatbaar vir oksidasie a.g.v. die vetsuursamestellling van hul
membraanfosfolipiede. Die H2 vrugte het ook ‘n hoër konsentrasie van versadigde vetsure, en dus
minder vloeibare membrane as die H1 vrugte gehad tydens opberging by -0.5 °C.
Die dubbeltemperatuurregime (DT) het simptoomontwikkeling vertraag en koueskade-intensiteit
betekenisvol verminder in vergelyking met pruime wat by -0.5 °C opgeberg is. Vrugte wat met die
DT regime opgeberg is, het ‘n meer optimale fosfolipiedvetsuursamestelling en laer konsentrasie
van membraansterole tydens gesimuleerde raklewe gehad wat meer vloeibare membrane
verseker het. Hierdie behandeling het ook hoër HAA en lipiedoplosbare antioksidantaktiwiteit
(LAA), askorbiensuur- en glutatioonkonsentrasies gehad wat die vrugte beskerm het teen
oksidatiewe druk.
Verhoogde opbergingstemperature het hoër vlakke van lipiedperoksidasie of lae
askorbiensuurkonsentrasies asook swak vrugkwaliteit in ‘Sapphire’ pruime veroorsaak in
vergelyking met die DT regime. ‘Laetitia’ pruime wat by 5 °C en 7.5 °C opgeberg is, het
betekenisvol minder koueskade gehad in vergelyking met die DT regime, maar het vinniger sag
geword a.g.v. hoër etileenvrystellingstempos.
‘Sapphire’ kon lang en kort GLV tye weerstaan, maar ‘n stadiger inisiële GLV spoed het die
manifestasie van koueskade voorkom en het ‘n hoër HAA in die vrugte tot gevolg gehad na
koelopberging. ‘Laetitia’ wat met ‘n stadiger inisiële GLV spoed en oor ‘n langer tyd verkoel is, het
die beste vrugkwaliteit, en hoër HAA, totale fenool-, fosfolipied- en versadigde
fosfolipiedvetsuurkonsentrasies as die ander behandelings tydens koelopberging gehad
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Time-temperature interaction on postharvest rind colour development of CitrusVan Wyk, Angelique A. (Angelique Ann) 12 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2004. / ENGLISH ABSTRACT: Rind colour is one of the most important external quality characteristics of citrus fruit and
plays an important role in purchasing decisions by consumers. Consumers perceive brightlycoloured
fruit to be sweet and mature, whereas citrus with a green rind is perceived to be sour
and immature. However, there is a poor correlation between rind colour and internal quality,
contradicting what is generally assumed by the fruit-buying public. In general, a bright
orange rind colour improves consumer acceptance. Thus, it is important to ensure that the
rind of citrus fruit is well-coloured on arrival at the market.
Various pre-harvest cultural practices and postharvest techniques can be applied to improve
rind colour. Degreening with ethylene gas is the most commonly used postharvest technology
to improve rind colour, but has various negative side-effects. Degreened fruit are more prone
to decay, have rinds which appear dull and flaccid, have been reported to develop off-flavours
and have a shorter shelf-life period. Therefore, it is necessary to find alternatives to ethylene
degreening and to extend shelf-life of citrus fruit.
Under normal orchard conditions, rind colour development is associated with low night
temperatures, usually experienced during autumn or following the passing of a cold front. To
simulate cold front conditions, a hydrocooler and cold room were used to rapidly drop fruit
temperature to 4 ºC for 6 hours, and then fruit were incubated at 20 to 22 ºC for 72 hours.
This “cold shock” treatment of ‘Nules Clementine’ mandarin improved rind colour to a level
similar to that of degreened fruit in the 2002 season due to a decrease in chlorophyll content
and increase in carotenoid content. However, this result could not be repeated. Storage temperature is one of the most important postharvest factors affecting rind colour.
Citrus fruit shipped to export markets requiring low temperatures (-0.6 ºC) for pest
disinfestations purposes have been reported to arrive with poor rind colour. Shipping under
low temperatures results in poor rind colour of fruit on arrival in the market. To comply with
the USA’s phytosanitary requirement for imported citrus, fruit is held at -0.6 ºC for a
minimum of 22 days. The effect of shipping at various temperatures (-0.6 ºC or 4.5 ºC),
durations and the influence of initial rind colour, “orange” or “yellow”, on fruit colour upon
arrival in the market was evaluated. Fruit shipped at a higher temperature (4.5 ºC) had a
marginally better rind colour than fruit shipped at -0.6 ºC. The perceived loss of rind colour
following shipping at sub-zero temperatures is probably due to carotenoid degradation.
Therefore, initial rind colour plays a critical role in final product quality. Depending on
market destination and shipping temperature, pale-coloured fruit should not be packed for
markets sensitive to rind colour.
Holding temperature after shipping can be effectively used to improve the rind colour of fruit
arriving in the market with undesirable rind colour. An intermediate holding temperature of
between 11 and 15 ºC resulted in the greatest improvement in rind colour after 2 weeks. A
high holding temperature (20 ºC) caused colour degradation, whereas a low holding
temperature (4.5 ºC) resulted in the maintenance of rind colour. By selecting the correct
holding temperature, even after shipping at sub-zero temperatures, final colour can be
improved. / AFRIKAANSE OPSOMMING: Tyd-temperatuur interaksie op na-oes skilkleur ontwikkeling by sitrus
Skilkleur is een van die belangrikste eksterne kwaliteitseienskappe van die sitrusvrug en spëel
ʼn belangrikke rol in wat verbruikers koop. Verbruikers verwag dat heldergekleurde vrugte
soet en ryp sal wees, terwyl sitrus met ʼn groen skil geassosieer word met onrypheid en ʼn suur
smaak. In teenstelling hiermee is daar egter ʼn swak korrelasie tussen skilkleur en interne
kwaliteit. Aangesien ʼn heldergekleurde oranje skil verbruikersaanvaarding verbeter, is dit dus
belangrik om te verseker dat die sitrusvrug ʼn goeie skilkleur het teen die tyd wat dit die mark
bereik.
Verskeie voor-oes bestuurspraktyke en na-oes tegnieke kan toegepas word om die skilkleur te
verbeter. Ontgroening met etileen gas is die tegnologie wat mees algemeen gebruik word om
skilkleur na oes te verbeter, maar dit het egter verskeie newe effekte tot gevolg. Ontgroende
vrugte is meer vatbaar vir bederf en verwelkde skille met ʼn dowwe voorkoms. Afsmaake kan
voorkom en ʼn verkorte rakleeftyd is al gerapporteer. Dit is dus noodsaaklik om ʼn alternatief
vir etileen ontgroening te ontwikkel en die rakleeftyd van sitrusvrugte te verleng.
Onder normale boordomstandighede word skilkleur ontwikkeling geassosieer met lae nag
temperature wat gewoonlik in die herfs of na ʼn kouefront ondervind word. Om soortgelyke
omstandighede na te boots, was ʼn “hydrocooler” en koelkamers gebruik om die temperatuur
vinnig te laat daal tot by 4 °C en dit vir 6 uur daar te hou. Die vrugte was dan by 20 tot 22 °C
geinkubeer vir 72 uur. Hierdie “koueskok” behandeling van ‘Nules Clementine’ mandaryn
het skilkleur verbeter tot ʼn vlak vergelykbaar met ontgroende vrugte in die 2002 seisoen wat ontstaan het weens ʼn verlaging in chlorofil en ʼn toename in die karotinoïed inhoud van die
skil.
Opbergingstemperatuur is een van die belangrikste na-oes faktore wat skilkleur beinvloed.
Sitrusvrugte wat verskeep word na uitvoermarkte wat lae temperature (-0.6 °C) vir
disinfestasie vereis arriveer soms by die mark met ʼn swak skilkleur. Om die fitosanitêre
vereistes vir die invoer van sitrus deur die VSA na tekom, was vrugte vir ʼn minimum van 22
dae by -0.6 °C gehou. Die effek van verskeping by verskeie temperature (-0.6 °C of 4.5 °C),
tydperke en die invloed van aanvanklike skilkleur, “oranje” of “geel” was geevalueer by
aankoms in die mark. Vrugte wat by hoër temperature (4.5 °C) verskeep was het ʼn effens
beter skilkleur as vrugte by -0.6 °C getoon. Die verlies in skilkleur wat waargeneem word na
verskeping onder vriespunt kan moontlik toegeskryf word aan karotenoiëd afbraak. Daarom
speel aanvanklike skilkleur ʼn kritieke rol in finale produk kwaliteit. Die finale mark
bestemming en verskepingstemperatuur sal bepaal of swakgekleurde vrugte verpak kan word.
Opbergingstemperatuur na verskeping kan effektief gebruik word om die skilkleur van vrugte
wat swak gekleur was met aankoms by die mark te verbeter. Matige temperature tussen 11 en
15 °C het na 2 weke die beste verbetering in skilkleur gelewer. Hoër temperature (20 °C) het
skilkleur nadelig beinvloed, terwyl lae temperature skilkleur behou het. Deur die korrekte
temperatuur te kies, selfs na verskeping by temperature onder vriespunt, kan uiteindelike
skilkleur steeds verbeter word.
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Nutrient requirement and distribution of intensively grown ‘Brookfield Gala’ apple treesKangueehi, Grace Nandesora 03 1900 (has links)
Thesis (MscAgric (Horticulture))--University of Stellenbosch, 2008. / ‘Brookfield Gala’ apple trees were planted out in July 2003 in a Dundee soil form, consisting
of well-aerated sandy loam soil. During the first 12 months trees received young tree
solutions high in nitrogen. The nutrient solution of the 2nd leaf trees was based on a yield
estimation of 10 ton. ha-1 plus 30%. Nutrient solutions for the 3rd leaf trees were based on 25
ton. ha-1 yield estimations and adapted upwards.
Seasonal uptake and distributions were determined for macro and micro elements, using twoand
three-year-old apple trees during the seasons 2004/2005 and 2005/2006. In the bearing
apple trees the macro nutrient accumulated rapidly from late winter to late autumn. Prior to
leaf drop most of the N, P, S, Mg and a small portion of K were redistributed back into the
permanent parts of the tree. On the other hand, all Ca in the leaves was lost through leaf drop.
Apple fruit contains comparatively large quantities (±60.2%) of K, which are removed during
harvest.
Guidelines for minimum and maximum nutritional requirements based on the amount
necessary to produce 1 kg fruit were determined. For the 3rd leaf trees the minimum macro
nutrient requirements (g. kg-1 yield) of N, P, K, Ca, Mg and S were ±1.7, ±0.3, ±2.3, ±0.5,
±0.2 and ±0.2, respectively. The maximum nutrient requirements (g. kg-1 yield) for N, P, K,
Ca, Mg and S were ±2.6, ±0.4, ±3.3, ±1.9, ±0.4 and ±0.2, respectively. For the 3rd leaf trees
the minimum micro nutrient requirements (mg. kg-1 yield) of Na, Mn, Fe, Cu, Zn, B and Mo
were ±75.1, ±1.3, ±28.7, ±0.9, ±3.0, ±5.7 and ±0.3, respectively. The maximum nutrient
requirements (mg. kg-1 yield) of Na, Mn, Fe, Cu, Zn, B and Mo were ±102.9, ±7.8, ±32.6,
±1.1, ±6.5, ±7.6 and ±0.3, respectively.
Labelled N uptake and distribution for two- and three-year-old apple trees were also
determined during the same seasons. The labelled N uptake and distribution results indicated
that there was a low labelled N uptake in the initial growth stages, suggesting the importance
of internal N reserves for plant development at the beginning of the season. In the active
growing period more than 60% of the labelled N was found in the new growth. Uptake
efficiency improved as the trees grew older. The effect of different nutrient levels on tree growth, yield and fruit quality was assessed:
lower (80%) than the standard (100%) and three higher (120%, 140% and 160%). Results
indicated that different nutrient levels had no effect on yield, blush or TSS during the 18
months of application over two bearing seasons. The application of biological products
(humic acid, and compost plus compost extract) over a period of 18 months had a significant
influence on the TSS, malic acid and citric acid concentrations. A tendency towards an
increase in total fine root number and length occured with the addition of biological
ameliorant.
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Factors leading to poor fruit set and yield of sweet cherries in South AfricaSheard, Andrew Grant 03 1900 (has links)
Thesis (MScAgric (Horticulture))--Stellenbosch University, 2008. / Sweet cherries (Prunus avium L.) have a high chilling requirement and grow best in areas receiving >1 100 Utah chill units during winter. The main production areas in South Africa, and particularly the eastern Free State, frequently receive insufficient winter chilling and late spring frosts leading to problems of poor budburst, flowering, floral abnormalities and poor fruit set. Research was conducted on the cultivar ‘Bing’ to determine the main factors causing its low fruit set. Various trials were conducted to optimize the timing of rest breaking agents, identify suitable cross pollinizers that flower synchronously with ‘Bing’, and evaluate the influence of temperature and pollen-pistil interactions on fertilization and fruit set.
Pollen biology studies using 2- to 3-year-old ‘Bing’ sweet cherry trees were conducted near Clarens, eastern Free State, during the 2005 and 2006 seasons to determine the most suitable cross pollinizer/s for ‘Bing’ and to assess the influence of temperature and pollen-pistil interactions on pollen tube growth and ovule longevity. Significant differences in pollen germination (‘rates’ deleted) occurred between pollinizers, although differences were noted in pollen performance on the stigma and style (in vivo) compared to the artificial media (in vitro), indicating a lack of correlation between in vitro germination and in vivo pollen-pistil interactions. Pollen tube growth, following cross pollination, was influenced by pollinizer genotype, temperature, and the number of pollen grains deposited on the stigma. The highest pollen tube growth rates in ‘Bing’ styles were recorded for the pollinizers ‘Black Tartarian’ (2006), ‘Lapins’ and ‘Rainier’ sweet cherry cultivars at temperatures of approximately 21°C. Temperature had the most significant influence on ovule longevity with the lower orchard temperatures extending ovule viability compared to the higher laboratory temperatures, although pollen tube growth rates were also reduced, thus shortening the effective pollination period. Cross pollination was also shown to extend ovule viability. The results indicate that ‘Black Tartarian’, ‘Lapins’ and ‘Rainier’ were the most suitable pollinizers for ‘Bing’. Hand-pollination with pollen from these donors resulted in a several-fold increase in seed set over naturally-pollinated control flowers. It appears that the principle factors causing poor fruit set in ‘Bing’ sweet cherry are premature abortion of the ovule before fertilization and inadequate transfer of sufficient viable pollen under orchard conditions.
Rest breaking trials were conducted on 4-year-old ‘Bing’ sweet cherry trees on ‘Gisela® 5’ rootstock near Clarens (28°28’S; 28°19’E, 1860m) and Reitz (28°0’S; 28°28’E; 1717m) in the eastern Free State, South Africa, during the 2005 and 2006 seasons respectively. In 2005 five treatments were evaluated; viz. 1% and 2% Dormex® (hydrogen cyanamide, HCN); 1% Dormex® + 3% mineral oil; and 3% Lift® (thidiazuron and mineral oil) sprayed at three dates (29 July 2005, 5 August 2005 and 12 August 2005) preceding expected the “green-tip” stage of flower development, plus an unsprayed control. In 2006 four treatments were evaluated; viz. 1% Dormex®; 1% Dormex® + 3% mineral oil; 3% Lift® applied on three dates (26 July 2006, 7 August 2006 and 12 August 2006) and an unsprayed control. No interaction was observed between time of application and type of rest breaking agent (RBA). RBAs were effective at improving budburst and yield during both seasons with the time of application of RBAs having the most significant influence on budburst and production efficiency in ‘Bing’ sweet cherry trees. RBAs were most effective at improving vegetative budburst when applied 9 to 16 days before the (‘actual’ deleted) “green-tip” stage of flower development. Floral budburst and yield were increased by 1% Dormex® + 3% mineral oil and 3% Lift®, but results varied between seasons indicating that time of RBA application should be based on chilling accumulation and bud development stage and not based on calendar date.
This current research suggests that ‘Bing’ sweet cherry is poorly suited climatically to the current production areas of the eastern Free State and short-term research needs to identify methods of improving chilling and fruit set by means of evaporative cooling and fruit set-enhancing plant growth regulators. Longer term work requires the identification of new, lower chill cultivars with improved climatic adaptation to South African conditions.
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Evaluation of temperature variances found with integral reefer containers during shipment of Japanese plums (Prunus salicina Lindl.) at dual and single temperatureKapp, Anine A. C. 03 1900 (has links)
Thesis (MScAgric)--Stellenbosch University, 2008. / ENGLISH ABSTRACT: Stone fruit is susceptible to chilling injury and intermittent warming has been shown to
alleviate chilling injury during cold storage. A dual temperature storage regime was
developed in South Africa for plums based on the principles of intermittent warming. The
regime consists of an initial period at -0.5°C, a variable duration warming period at 7.5°C,
followed by -0.5°C. Refrigerated integral containers were designed to maintain product
temperature and not to reduce product temperature, per se. Considering that dual
temperature shipment requires significant refrigeration and effective distribution of cool air to
remove sensible- and respiratory heat, the capacity of integral containers to ship plums
successfully at dual temperature is questioned.
The objectives of this study were, firstly, to analyse pulp temperature data and possibly
identify different temperature zones within containers shipping plums at dual temperature.
Secondly, to understand the underlying processes differentiating the temperature zones and
thirdly, to determine the effect of container performance on fruit quality.
Three processes were identified as important characteristics of pulp temperature data sets
recorded during dual temperature shipping, namely cooling down, heating up and over
heating in the container. The order of importance differed according to the cultivar shipped
and the container’s performance. Three temperature zones were identified in dual
temperature containers, where the average pulp temperature, time to heat up and time to
cool down for each temperature zone increased along the length, across the width from the
left to the right and up the container system. The variable temperature conditions were
possibly due to a variation in delivery air temperature, poor airflow and the effect of increased
respiration and, therefore, production of vital heat by the fruit. The cooling down process was
identified as the most important process discriminating the temperature zones.
With the exception of ‘Fortune’, variable temperature conditions found within integral
containers shipping plums at dual temperature had a significant influence on the fruit
firmness post-shipment, where deterioration levels increased from the front to the door end
of the container due to an increase in pulp temperature. However, it was also shown that fruit
firmness prior to shipment could have a determining effect on differences found. It could not be proven that variable temperature conditions resulted in significantly higher levels of
internal defects within the integral container.
Temperature zones could not be identified within refrigerated integral containers shipping
plums at single temperature, suggesting that the containers are able to maintain the
temperature well throughout the container area.
A constant 2°C storage temperature could possibly replace the commercial dual temperature
regime in the case of ‘Pioneer’ plums due to improved fruit firmness, similar colour
development to the control and less sensible heat produced in the container resulting in a
more stable container environment. However, unacceptably high levels of shrivel and internal
browning were found. / AFRIKAANSE OPSOMMING: Steenvrugte is vatbaar vir koueskade en dit is bewys dat periodieke verwarming gedurende
koelopberging koueskade kan verlig. Die dubbeltemperatuur opbergingsregime is in Suid-
Afrika ontwikkel vir pruime en is gebaseer op die beginsels van periodieke verwarming. Die
regime bestaan uit ‘n inisiële periode by -0.5°C, ‘n variërende periode by 7.5°C, gevolg deur
-0.5°C. Verkoelde integrale houers is ontwerp om produktemperature te handhaaf en nie
soseer om produktemperatuur te verlaag nie. Die kapasiteit van integrale houers om pruime
suksesvol teen dubbeltemperatuur te verskeep word dus bevraagteken, in ag geneem dat
dubbeltemperatuurverskeping betekenisvolle verkoeling en effektiewe verspreiding van koue
lug vereis om die waarneembare- en respiratoriese hitte te verwyder.
Die doelwitte van die studie was eerstens om die pulptemperatuurdata te analiseer en
moontlik verskillende temperatuursones binne houers wat pruime teen dubbeltemperatuur
verskeep te identifiseer. Tweedens, om die onderliggende prosesse wat die
temperatuursones van mekaar onderskei te verstaan, en derdens om die effek van die houer
se werkverrigting op vrugkwaliteit te bepaal.
Drie prosesse is geïdentifiseer as belangrike eienskappe van pulptemperatuur datastelle
aangeteken gedurende dubbeltemperatuurverskeping, naamlik afkoeling, opwarming en
oorverhitting wat binne die houer plaasvind. Die volgorde van belangrikheid het gevarieer
afhangende van die kultivar verskeep en die houer se werkverrigting. Drie temperatuursones
is geïdentifiseer binne integrale houers wat pruime teen dubbeltemperatuur verskeep, waar
die gemiddelde pulptemperatuur, die opwarmingstyd en die afkoelingstyd vir elke
temperatuursone in die lengte, oor die wydte van links na regs en van onder na bo in die
houersisteem toegeneem het. Die variërende temperatuur toestande kan moontlik toegeskryf
word aan ‘n variasie in leweringstemperatuur, swak lugvloei en die effek van toenemende
respirasie, en dus die produksie van hitte vrygestel deur die vrugte. Die afkoelingsproses is
geïdentifiseer as die belangrikste proses wat die temperatuursones van mekaar onderskei.
Behalwe in die geval van ‘Fortune, het variërende temperatuurtoestande in integrale houers
wat pruime teen dubbeltemperatuur verskeep ‘n betekenisvolle invloed op die vrugfermheid
na verskeping gehad, waar vrugveroudering toegeneem het van voor in die houer na die
deur van die houer as gevolg van ‘n toename in pulptemperatuur. Daar is egter bewys dat die vrugfermheid voor verskeping ook ‘n bepalende effek kon hê op die fermheidsverskille.
Dit kon nie bewys word dat die variërende temperatuurtoestande betekenisvol hoër vlakke
van interne defekte binne die integrale houer veroorsaak het nie.
Temperatuursones kon nie geïdentifiseer word binne verkoelde integrale houers wat pruime
teen enkeltemperatuur verskeep het nie, wat dus impliseer dat die houers daartoe instaat is
om temperatuur goed te onderhou binne die houer.
‘n Konstante 2°C opbergingstemperatuur kan moontlik die kommersiële
dubbeltemperatuurregime vervang in die geval van ‘Pioneer’ pruime as gevolg van
verbeterde vrugfermheid, soortgelyke kleurontwikkeling as die dubbeltemperatuurregime en
minder hitte geproduseer binne die houer deur die pruime, wat ‘n meer stabiele
houeromgewing veroorsaak. Onaanvaarbare hoë vlakke van verrimpeling en interne
verbruining is egter gevind.
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Cold storage of Leucospermum cutflowers and Leucadendron greensGraham, Shelly 12 1900 (has links)
Thesis (MScAgric)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Quality of certain Leucospermum and Leucadendron cultivars after approximately 21
days shipping has been reported to be substandard due to ‘drying out’ of leaves and, in
the case of Leucadendrons, involucral leaves. The nature of the symptoms of this
‘drying out’ and the conditions under which they form, viz. long exposures to low
temperatures, has led us to hypothesize that these are symptoms of chilling injury (CI).
Chilling injury, as far as we are aware, has not been documented on Leucospermums or
Leucadendrons.
Typical CI symptomology is discussed and shown for Leucospermum ‘Gold Dust’, ‘High
Gold’ and ‘Succession’ and for Leucadendron ‘Chameleon’, ‘Laurel Yellow’ and ‘Safari
Sunset’. The nature of CI symptoms for Leucospermums and Leucadendrons was
generally membranous breakdown that manifested in some cases as a ‘water soaked’
appearance which, at a more advanced stage, was generally visible as ‘dried out’
patches on the leaves. In the case of the Leucadendrons CI was also visible on the
immature involucral leaves which are more sensitive to chilling conditions than mature
leaves. Dark discoloration of especially immature involucral leaves is also a symptom of
CI. As water uptake of shoots with chilling injury is hindered the styles of the
Leucospermums wilt. As can be expected, the lower the temperature below the
threshold temperature and the longer the exposure the more severe the symptoms.
CI was recorded on cut flower shoots of Leucospermum ‘Gold Dust’, ‘High Gold’,
‘Rigoletto’, ‘Succession’ and ‘Vlam’ after 21 and 24 days storage at 1ºC. After 24 days
storage the chilling injury was more severe than after 21 days storage in most cases.
Each cultivar was pulsed with 5 ml per stem of a 2% (w/v) sugar solution of either
lactulose, sucrose, glucose, fructose or mannose before storage. After storage, CI was
recorded on day 0, 3, 7 and 10 of the vase phase. Of the cultivars tested ‘Vlam’ and
especially ‘Rigoletto’ were more prone to chilling injury development. ‘High Gold’ and
‘Vlam’ shoots were pulsed with 0 (control), 1.5, 3 or 4% (w/v) solutions of either
mannose or fructose. The best control of CI for both cultivars was achieved with 1.5% (w/v) solution. Lower concentrations of mannose and fructose were tested on ‘High
Gold’ shoots, with a 1% (w/v) solution giving the best control for both. At high
concentrations signs of toxicity became evident directly after pulsing. ‘High Gold’ shoots
were pulsed with 1% (w/v) solutions of mannose and fructose and sugar analyses were
performed on shoots at different stages of storage and after 10 days in the vase. A slight
increase in mannose and fructose was detectable in the stems of the shoots directly
after pulsing but not in the leaves or the inflorescences. This is due to the low
concentrations being used. The levels of all the carbohydrates decreased during the 21
days storage and more so during the vase phase of the flowering shoots. The fact that
such low concentrations were effective in controlling chilling injury suggests that the
sugars may have an effect other than on the osmotic potential.
Cut ‘flower’ shoots of Leucadendron ‘Chameleon’, ‘Laurel Yellow’ and ‘Safari Sunset’
were stored for 14, 21 and 28 days, at 1º, 3º and 5ºC and CI development recorded
during the subsequent 10 day vase phase. ‘Laurel Yellow’ and ‘Safari Sunset’ showed
signs of chilling injury on the leaves after 28 days storage at 3ºC or lower and ‘Safari
Sunset’ stored for 21 days developed chilling injury during the vase phase. Immature
involucral leaves were more sensitive to chilling injury than leaves. CI increased with
longer exposure times and lower storage temperatures for all three cultivars evaluated.
‘Chameleon’ was the most chilling tolerant of the cultivars up to 21 days. At 5ºC chilling
injury was low irrespective of cold storage duration but longer exposures to 1º and 3ºC
resulted in increased chilling injury development during the vase phase. All three
cultivars were pulsed with 5 ml per stem of a 1% (w/v) solution of lactulose, sucrose,
glucose, fructose or mannose and stored for 14, 21 and 28 days at 1ºC. The sugars
reduced chilling injury on the leaves for ‘Safari Sunset’ when stored for 28 days and, to a
lesser extent, in ‘Chameleon’. The sugars failed to reduce chilling injury of the involucral
leaves of ‘Chameleon’ and ‘Laurel Yellow’ whereas there was some control especially
after 28 days for ‘Safari Sunset’. In some cases the sugar pulse exacerbated chilling
injury. Chilling injury generally increased rapidly after storage during the first three days
in the vase and then at a lower rate for the next seven days. Leucadendron
‘Chameleon’, ‘Laurel Yellow’ and ‘Safari Sunset’ ‘cut flower’ shoots were pulsed with a 1% (w/v) glucose solution. Expressed on a dry weight basis, an increase in glucose
concentration was not detected. The reduction in chilling injury of leaves by a sugar
pulse is speculated, as for the Leucospermums, to be as a result of their presence in the
apoplast and not the symplast and that their presence there protects the membranes
against chilling conditions in some way. / AFRIKAANSE OPSOMMING: Die kwaliteit van sekere Leucospermum en Leucadendron kultivars na ongeveer 21 dae
verskeping is waargeneem as substandaard as gevolg van die uitdroog van blare en, in
die geval van Leucadendrons, die ‘involucral’ blare. Die aard van die simptome van
hierdie uitdroging en die toestande waaronder dit plaasvind nl. lang periodes van
blootstelling aan lae temperature, het ons tot die hipotese gebring dat hierdie simptome
van koueskade is. Sover as wat ons bewus is, is koueskade nog nie gedokumenteer op
Leucospermums of Leucadendrons nie.
Tipiese koueskade simptomologie word bespreek en gewys vir Leucospermum ‘Gold
Dust’, ‘High Gold’ en ‘Succession’ en vir Leucadendron ‘Chameleon’, ‘Laurel Yellow’ en
‘Safari Sunset’. Die koueskade simptome vir Leucospermums en Leucadendrons was
oor die algemeen membraan afbraak wat ‘n water deurdrenkte voorkoms tot gevolg
gehad het wat in ‘n meer gevorderde stadium sigbaar was as uitgedroogde kolle op die
blare. In die geval van Leucadendrons was koueskade ook sigbaar op die onvolwasse
‘involucral’ blare wat meer sensitief is vir koue toestande as volwasse blare. Donker
verkleuring van veral onvolwasse ‘involucral’ blare is ook ‘n simptoom van koueskade.
Aangesien wateropname van stele met koueskade verhinder word, verwelk die ‘styles’
van die Leucospermums. Soos verwag kan word hoe laer die temperature onder die
drempel temperatuur en hoe langer die blootstelling, hoe meer ernstig die simptome.
Koueskade is aangeteken op gesnyde blomstele van Leucospermum ‘Gold Dust’, ‘High
Gold’, ‘Rigoletto’, ‘Succession’ en ‘Vlam’ na 21 en 24 dae opberging by 1°C. Na 24 dae
opberging was die koueskade meer ernstig as na 21 dae opberging in meeste gevalle.
Elke kultivar het 5ml per steel van ‘n 2% (g/v) suiker oplossing van laktolose, sucrose,
glucose, fruktose of mannose voor opberging opgeneem. Na opberging is koueskade
aangeteken op dag 0, 3, 7 en 10. Van die kultivars wat getoets is, was ‘Vlam’ en veral
‘Rigoletto’ meer geneig tot koueskade ontwikkeling. ‘High Gold’ en ‘Vlam’ stele is
geplaas in oplossings van 0 (kontrole), 1.5, 3 of 4 % (g/v) oplossings van mannose of fruktose. Die beste beheer van koueskade vir beide kultivars is deur die 1.5 (g/v)
oplossing behaal. Laer konsentrasies van mannose en fruktose is getoets op ‘High Gold’
stele met ‘n 1% (g/v) mannose oplossing wat die beste beheer gegee het. Met hoë
konsentrasies het tekens van toksisiteit sigbaar geword direk na opneem van die
oplossing. ‘High Gold’ stele is geplaas in 1% (g/v) oplossings van mannose of fruktose
en suiker analises is uitgevoer op stele by verskillende stadiums van opberging en na 10
dae in die vaas. ‘n Effense toename in mannose en fruktose is waargeneem in die stele
van die blomme direk na opname van die oplossing, maar nie in die blare of die blomme
nie. Dit is as gevolg van die lae konsentrasies wat gebruik is. Die vlakke van al die
koolhidrate het afgeneem gedurende die 21 dae opberging en nog meer so gedurende
die vaas periode van die blommende stele. Die feit dat sulke lae konsentrasies effektief
is in die beheer van koueskade dui daarop dat die suikers ‘n effek het anders as op die
osmotiese potensiaal.
Snyblomme van Leucadendron ‘Chameleon’, ‘Laurel Yellow’ en ‘Safari Sunset’ is
opgeberg vir 14, 21 en 28 dae, by 1º, 3º en 5°C en koueskade ontwikkeling is
aangeteken gedurende die opvolgende 10 dae vaas periode. ‘Laurel Yellow’ en ‘Safari
Sunset’ het tekens gewys van koueskade op die blare na 28 dae opberging by 3°C of
laer en ‘Safari Sunset’ opgeberg vir 21 dae het koueskade ontwikkel gedurende die
vaas periode. Onvolwasse ‘involucral’ blare was meer sensitief vir koueskade as die
blare. Koueskade het toegeneem met langer blootstellingstye en laer opbergins
temperature vir al drie kultivars geëvalueer. ‘Chameleon’ was die mees
koueverdraagsaam van die drie kultivars tot op 21 dae. By 5°C was laag ongeag van die
koue opberging tydperk, maar langer blootstellings aan 1º en 3°C het gelei tot toename
in koueskade ontwikkeling gedurende die vaas periode. Al drie kultivars is voorsien met
5ml per steel van ‘n 1% (g/v) oplossing van lactulose, sucrose, glucose, fruktose of
mannose en opgeberg vir 14, 21 en 28 dae by 1°C. Die suikers het koueskade
verminder op die blare van ‘Safari Sunset’ wanneer opgeberg vir 28 dae en, tot ‘n
mindere mate, in ‘Chameleon’. Die suikers het egter nie koueskade verminder van die
‘involucral’ blare van ‘Chameleon’ en ‘Laurel Yellow’ nie, waar daar egter wel in ‘n mate
beheer was veral na 28 dae vir ‘Safari Sunset’. In sommige gevalle het die voorsiening van suiker die koueskade vererger. Koueskade het oor die algemeen vinnig toegeneem
na opberging gedurende die eerste drie dae in die vaas en dan teen ‘n laer tempo vir die
volgende sewe dae. Leucadendron ‘Chameleon’, ‘Laurel Yellow’ en ‘Safari Sunset’
snyblom stele is voorsien van ‘n 1% (g/v) glukose oplossing. Uitgedruk op ‘n droëmassa
basis is ‘n toename in glukose konsentrasie nie waargeneem nie. Die afname in koueskade
van blare deur die voorsiening van ‘n suiker oplossing is gespekuleer vir die
Leucospermums, om ‘n resultaat te wees van hulle teenwoordigheid in die apoplas en
nie die simplas nie, en dat die teenwoordigheid daar die membrane op ‘n manier
beskerm teen koue toestande.
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Manipulation of the chilling requirement of sweet cherry treesKapp, Cornelius Johannes 03 1900 (has links)
Thesis (MscAgric (Horticulture))--University of Stellenbosch, 2008. / Commercial production of sweet cherries has recently increased in South Africa, with more than 400 ha planted by 2006. Cherry, a high chilling fruit variety, is however not suited for the mild winter climate of South Africa. This was recognizable through common observed symptoms of delayed foliation and poor fruit set. In addition, cherry is exposed to long and hot summers in the postharvest period. The objective of this study was to evaluate cherry cultural practices that can manipulate (reduce) the trees chilling requirement under South African conditions. Cultural practices where aimed at increasing reserves (nitrogen, cytokinin and carbohydrates) in the tree. In addition, bud dormancy progression of cherry buds was quantified to determine the bud dormancy progression pattern under mild winter conditions. This was achieved through sampling of cherry shoots from different cherry production areas which was then forced in the growth cabinets. A model was developed to identify possible factors and groupings that can explain the cherry bud dormancy pattern.
A model, comprising two joined straight lines, was fitted in order to characterize bud dormancy behaviour for sweet cherry cultivars under mild winter conditions. All cherry cultivars followed the expected pattern of entrance and exit from dormancy. Factor analysis showed that factors related to the entrance into dormancy primarily characterize bud dormancy behaviour. Bud dormancy patterns were also a function of environmental conditions within a year as shown by cluster analysis. In addition, buds entered dormancy in mid-summer and remained dormant until chilling accumulation commenced. Bud dormancy release was generally extended over a three to five-month period for all cultivars. Prior to spring budburst exit of both lateral and terminal buds occurred rapidly. Data indicate that there is no ecodormant phase for cherry under the prevalent climatic conditions in South Africa.
Further experimentation was aimed at increasing reserves within the trees through cultural practices. In the nitrogen trials, fertilization in the postharvest period had no significant effect on field budburst or bud dormancy progression in one-year-old shoots. Time of flowering was advanced in N treatments during 2007 only. Yield was not significantly increased. Therefore, in this trial, N fertilization in the postharvest period did not significantly reduce the chilling requirement of mature sweet cherry trees under mild winter conditions. Application of particle films (Surround® and Raynox®) or ethylene inhibitors (Retain®) in the summer did not reduce the heat stress the trees experienced. Treatments had no significant effect on carbon assimilation, stomatal conductance, leaf surface temperature, fluorescence, bud dormancy, budburst, flowering and fruit set.
Cytokinins sprays (benzyladenine) in autumn did not affect bud dormancy progression, spring budburst or flowering.
Hydrogen cyanamide application in spring significantly advanced budburst, time to full bloom and increased yield. Promalin® and Retain®, however, had no significant effect on budburst, flowering or yield.
It is therefore evident that cherry, due to its unexpected bud dormancy behaviour and its inability to be significantly influenced by several cultural practices, adapts poorly to South African climatic conditions through not reducing its chilling requirement significantly.
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