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Storage fungi and mycotoxins associated with cowpeaKritzinger, Quenton 26 May 2006 (has links)
Cowpeas (Vigna unguiculata (L.) Walp) is an important African indigenous legume crop for the livelihoods of many relatively poor people residing n less developed countries of the tropics. Rural families derive a nutritious food, animal feed and in income from the production of this crop. Storage of seed is certainly the most important post-harvest operation but the losses incurred are great. These losses, due to an inability to effectively control physical and biological factors, result in problems with storage insects, moisture and associated fungi. Seeds are particularly susceptible to fungal contamination when stored at high ambient temperatures and relative humidities. To determine the storage fungi associated with cowpea seeds, surface-sterilised cowpea seeds (200 seeds from each of nine cultivars) were plated out n malt extract agar. After 5-7 days incubation at 25°C, the most dominant and common fungi recorded were Alternaria spp. followed by Penicillium spp., Aspergillus flavus and A. niger. The influence of a three-year cold storage period at ± 5°C on the fungi associated with the seeds was also investigated. Alternaria, Aspergillus and Penicillium spp. appeared to dominate. Some fungal species recorded prior to cold storage were not recorded thereafter. Certain storage fungi are known to produce mycotoxins, which are secondary fungal metabolites that are toxic to both farm animals and humans, under poor storage conditions. The presence of the fusarial mycotoxins, fumonisin BI, B2 and B3 in four cowpea cultivars (Bechwana Whit, Glenda, Iron Grey, Rhino) was investigated. The samples were extracted with methanol/water (70:30 v/v) and cleaned-up on strong anion exchange solid phase extraction cartridges. High performance liquid chromatography with pre¬column derivatisation using o-phthaldialdehyde (OPA) was used for the detection and quantification of fumonisin Bl, B2 and B3. All sampIes were contaminated with FBI, with levels ranging from 81-1002 ng g-I. Fumonisin B2 and B3 were not detected in any samples. This is believed to be the first report of fumonisin BI in cowpea seeds. Since the known fumonisin-producing Fusarium species were not found in the six different Fusarium species isolated from these four cultivars, further investigations are required to determine which fungal species are species are responsible species are responsible for the FBI production. An alternative approach to the prevention and control of fungal contamination and mycotoxin production of seeds by treating cowpea seed with essential plant oils was tested. The inhibitory activity of five essential oils (thyme, clove, peppermint, soybean and peanut) was investigated, in vitro and in vivo, on five fungal species (A. flavus, A. niger, Penicillium chrysogenum, Fusarium oxysporum and F. equiseti) commonly associated with cowpea seeds and on two cowpea cultivars. Thyme and clove oil significantly inhibited the growth of all five fungal species in vitro at 500 and 1000 ppm, while peppermint oil was successful at 2000 ppm. Peanut and soybean oil did not show any significant inhibition of fungal growth. The in vivo effect of thyme, clove and peppermint oils on naturally infected seed revealed that only thyme at 1000 ppm reduced fungal growth of storage fungi in the PAN 325 cultivar. In the PAN 311 cultivar, thyme and clove oils at 1000 ppm and peppermint oil at 2000 ppm significantIy reduced growth of storage fungi. In artificially infected seed, all three oils significantly inhibited the growth of P. chrysogenum. Thyme reduced the growth of F. oxysporum and F. equisetii, whilst peppermint oil inhibited only F. oxyspomm. These oils did not seem to adversely affect the germination nor emergence of cowpea seed. The storage fungi significantly reduced percentag germination and emergence of the white (IT 93K452-1) seed but had little or no effect on the brown (CH 14) seed. Furthermore, all three oils significantly inhibited the storage fungi on the white seed, possibly increasing the percentage germination and emergence. / Dissertation (MSc (Botany))--University of Pretoria, 2006. / Plant Science / unrestricted
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Enhancement of biological control for postharvest diseases of pearBenbow, Jesse M. 30 June 1998 (has links)
Yeast biocontrol agents that were applied to 'Bose' and 'Anjou' pears in the field
up to three weeks prior to harvest were found to survive on the fruit at high population
levels on both pear varieties. Cryptococcus infirmo-miniatus, Cryptococcus laurentii,
and Rhodotorula glutinis maintained populations averaging 5 x 10��� cfu/fruit for three
weeks. Candida oleophila had high initial populations, but the population size quickly
declined to levels similar to the total yeast populations on untreated fruit. After a
storage period of 2-4 months, fruit that were treated with C. infirmo-miniatus three
weeks before harvest showed significantly lower incidence of decay at wounds than did
untreated fruit.
Combinations of biocontrol agents with reduced rates of the postharvest
fungicides captan and thiabendazole were effective in reducing incidence and severity of
blue mold decay caused by Penicillium expansum on 'Bosc' pears. Calcium chloride was
also effective in combination with some biocontrol agents. Chitosan caused reductions
in decay when used alone, but not when combined with most biocontrol agents. The
compounds L-asparagine, L-proline, and 2-deoxy-D-glucose were not consistently
effective either alone or combined with biocontrol agents.
Storage of 'Bosc' and 'Anjou' pears in atmospheres with carbon dioxide
concentrations of 12% or 20% for up to six weeks significantly reduced incidence and
severity of gray mold decay caused by Botrytis cinerea, but decay was not reduced when
the atmospheres was only 3% CO���. In contrast, the 12% or 20% CO��� atmospheres did
not have significant effects on decay caused by P. expansum. Use of the biocontrol
agents C. infirmo-miniatus, C. laurentii, or R. glutinis led to reductions in decay in all atmospheres, with C. infirmo-miniatus being the most consistently effective. The biocontrol products BioSave-110 (EcoScience Corp.) and Aspire (Ecogen Corp.) were less effective than the yeasts C. laurentii, R. glutinis, and C. infirmo-miniatus which were grown in the lab. / Graduation date: 1999
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Volatile metabolic profiling to detect and discriminate diseases of mango fruitMoalemiyan, Mitra. January 2005 (has links)
Volatile metabolites from headspace gas of mango cultivars Tommy Atkins and Keitt, wounded and inoculated with two pathogens, Colletotrichum gloeosporioides and Lasiodiplodia theobromae or non-inoculated controls were profiled using a GC/MS to develop a technology to discriminate diseases. Several disease discriminatory compounds were identified and classified into three groups: (i) compounds unique to only one treatment; (ii) compounds common to two or more treatments but not to all; and (iii) compounds common to all treatments but with varying in their abundance. 1-pentanol and boronic acid ethyl were detected in only Lasiodiplodia-inoculated mangoes while thujol was observed only in Colletotrichum-inoculated mangoes. Models based on significant mass ions classified up to 100% of the diseases/inoculations. The disease discriminatory compounds and discriminant analysis models developed here could be used in the early detection of postharvest diseases of mango fruit, after validation under commercial conditions.
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Control strategies for citrus postharvest diseasesAuret, Erika Elizabeth 19 June 2006 (has links)
Please read the abstract in the section 06resume.pdf of this document / Dissertation (MSc (Plant Pathology))--University of Pretoria, 2007. / Microbiology and Plant Pathology / unrestricted
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Volatile metabolic profiling to detect and discriminate diseases of mango fruitMoalemiyan, Mitra. January 2005 (has links)
No description available.
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Epidemiology of Monilinia laxa on nectarine and plum : infection of fruits by conidiaFourie, Paul H. (Paul Hendrik) 03 1900 (has links)
Thesis (PhD(Agric))--University of Stellenbosch, 2001. / ENGLISH ABSTRACT: Postharvest decay of stone fruit in the Western Cape province of South Africa is
caused primarily by Botrytis cinerea (grey mould) and Monilinia laxa (brown rot). Little is
known about the relative importance and seasonal occurrence of the two pathogens in
nectarine and plum orchards, the mode of penetration of fruits by M laxa, latency and
subsequent disease expression by the latter pathogen. These aspects were investigated in this
study.
By sampling from the Unifruco Quality Evaluation Scheme and from 11 stone fruit
orchards, observations were made over a 3-year period of the occurrence of grey mould and
brown rot in the major stone fruit regions. Botrytis cinerea was found to be the most
important pathogen causing blossom blight and postharvest decay on stone fruit. The
pathogen was most prominent on early- and mid-season culti~ars. Brown rot was exclusively
caused by M laxa and no evidence was found that M fructicoZa had been introduced into the
region. Monilina laxa was most prominent on the later maturing cultivars. Botrytis cinerea
blossom infection did not contribute directly to postharvest decay. Both surface inoculum
and latent infection consistently occurred on fruit in each orchard, although at fluctuating
levels. Disease expression on developing fruit was not governed by the amount of B. cinerea
occurring on fruit surfaces, but by the ability of fruit to resist disease expression. The amount
of B. cinerea on fruits was generally higher during spring than during summer. Monilinia
laxa occurred sporadically on the blossoms of late-maturing cultivars. Immature fruit were
generally pathogen-free and disease expression occurred on maturing fruit only. These
findings suggest that conidia of M laxa are generally produced in orchards when fruits are
approaching maturity and can penetrate and infect maturing fruit only.
The behaviour of airborne M laxa conidia was subsequently studied on nectarine
(cultivar Flamekist) and plum (cultivar Laetitia) fruit. For these studies, an inoculation
method that simulates natural infection by airborne conidia was used. Fruit at pit hardening, 2 wk before harvest, harvest stage and after cold storage (nectarines 4 wk at -o.soC followed
by 1 wk at 23°C at ±56% RH; plums 10 days at .....().5°C,18 days at 7.5°C followed by 1 wk at
23°C at ±56% RH) were dusted with dry conidia of M laxa in a settling tower. The fruits
were incubated for periods ranging from 3 to 48 h at high relative humidity (2':93%, humid
fruit) or covered with a film of water (wet fruit). Behaviour of the solitary conidia was
examined with an epifluorescence microscope on skin segments stained in a differential stain
containing fluorescein diacetate, aniline blue and blankophor. The ability of solitary conidia
to colonise the fruit surface, penetrate fruit skins and to induce disease expression was
determined by using a differential set of tests. For these tests, fruit were surface-sterilised
(30 s in 70% ethanol) or left Unsterile. From each group, fruit were selected for isolation
(skin segment test), immersed in a 3% paraquat solution (paraquat-treated fruit test) or left
untreated (sound fruit test). 1be findings demonstrated that solitary conidia of M laxa
behaved consistently on plum and nectarine fruit surfaces: appressorium formation and direct
penetration was not observed on any of the fruit surfaces and germ tubes penetrated fruit
predominantly through stomata, lenticels and microfissures in the fruit skin. The monitoring
of airborne conidia revealed subtle effects of the fruits on the behaviour of solitary germlings,
which could not be seen when using conidial suspensions. On both fruit types, no deleterious
effect was seen on conidial and germling survival when fruit were kept humid at pit
hardening, 2 wk before harvest and harvest. However, conidial and germling survival were
drastically reduced by prolonged wet incubation of fruits. The findings on disease expression
in the skin segment, paraquat-treated fruit and sound fruit tests clearly showed that the skin of
both nectarine and plum fruits were not penetrated at the pit hardening stage, latent infections
were not established and fruitsreacted resistant to disease expression. These facets on both
fruit types were furthermore unaffected by wetness. The barrier capacity of the fruit skin of
the two stone fruit types however differed drastically later in the season. On nectarine, fruit
skins were more readily penetrated and disease expression became more pronounced when
fruit approached maturity. Penetration and disease expression on ripening nectarine fruit
were furthermore greatly influenced by wetness. Maturing plum fruit, on the other hand, did
not display the drastic change in the barrier capacity of fruit skins as observed on nectarine.
The influence of wetness on infection and disease expression was also less pronounced than
on nectarine. In fact, plum fruit remained asymptomatic in the sound fruit test after
inoculation and humid incubation at the 2 wk before harvest stage, harvest stage and after
cold storage. Plum fruit at these stages only developed disease after a prolonged period (~12 h) of wet incubation. The paraquat fruit test revealed that these fruits became more
susceptible to latent infection, but they were not as susceptible as nectarine. Collectively,
these findings indicate that M. laxa fruit rot epidemics on plum and nectarine are driven by
inoculum levels on fruit approaching maturity and by weather conditions prevailing during
the preharvest and harvest period. However, the barrier capacity of plum skins is
considerably more effective than that of nectarine fruit. Wounds would therefore play an
important role in the epidemiology of M. laxa on plum fruit.
Infection of fresh wounds by airborne M. laxa conidia, and by conidia and germlings
that have established on fruits, was therefore investigated. Plum fruit (cultivar Laetitia) at pit
hardening, 2 wk before harvest, harvest stage and after cold storage were dusted with dry
conidia of M. laxa in a settling tower.- Infection of rionwounded fruit and of fresh wounds by
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the airborne conidia on dry, humid and wet plum fruit surfaces, and by conidia and germlings
that have been established on fruits under the wetness regimes was then investigated.
Nonwounded immature and mature fruit remained mostly asymptomatic, whereas
nonwounded cold stored fruit decayed readily. Wounding drastically increased infection by
airborne conidia. Immature fruits were less susceptible to wound infection by the airborne
conidia than mature fruits. Conidia dispersed freshly were more successful in infecting fresh
wounds than conidia that were deposited, or germlings that established, on fruit surfaces
4 days prior to wounding. This decrease in infectivity was especially pronounced on humid
and even more on wet incubated fruit. This study clearly showed that in order to reduce. the
incidence of brown rot, inoculum levels on fruit approaching maturity should be reduced by
sanitation practices and fungicide applications. Furthermore, it is essential to protect fruits,
especially. near-mature fruits, from being wounded. / AFRIKAANSE OPSOMMING: EPIDEMIOLOGIE VAN MONILINIA LAXA OP NEKTARIEN EN
PRUIM: INFEKSIE VAN VRUGTE DEUR KONIDIA
OPSOMMING
Naoesverrotting van steenvrugte in die Wes-Kaap provinsie van Suid-Afrika word
hoofsaaklik veroorsaak deur Botrytis cinerea (vaalvrot) en Monilinia laxa (bruinvrot). Min is
bekend oor die relatiewe belang en seisoenale voorkoms van hierdie patogene in nektarienen
pruimboorde, asook oor die infeksieweg, latensie en daaropvolgende siekte-uitdrukking
van M laxa. Hierdie aspekte is in dié studie nagevors.
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Monsters IS oor 'n 3-jaar periode van die Unifruco Kwaliteitsevalueringskema, en ook
van 11 steenvrugboorde verkry. Die voorkoms van vaalvrot en bruinvrot in die hoof
steenvrugareas is so bepaal. Botrytis cinerea was die belangrikste patogeen wat betref
bloeiselversenging en naoesverrotting. Verder was hierdie patogeen ook meer prominent op
die vroeë- en middel-seisoen kultivars. Bruinvrot is uitsluitlik deur M Iaxa veroorsaak en
geen aanduiding omtrent die moontlike voorkoms van M fructicola in Suid-Afrika is
waargeneem nie. Monilinia laxa was meer prominent op die laat-seisoen kultivars. Botrytis
cinerea bloeiselinfeksie het nie direk bygedra tot naoesverrotting nie. Beide oppervlakkige
inokulum en latente infeksie het deurgaans, maar wel teen wisselende hoeveelhede, op vrugte
in die onderskeie boorde voorgekom. Siekte-uitdrukking op ontwikkelende vrugte is egter
nie beinvloed deur die hoeveelheid B. cinerea op die vrug nie, maar eerder deur die vermoë
van die vrug om siekte-uitdrukking te onderdruk. Die hoeveelheid B. cinerea op vrugte was
verder hoër gedurende lente as gedurende somer. Monilinia laxa het slegs sporadies op die
bloeisels van laat-seisoen kultivars voorgekom. Groen vrugte was in die algemeen vry van
die patogeen en siekte-uitdrukking het slegs op ryp vrugte plaasgevind. Hierdie bevindinge
dui daarop dat M laxa in boorde hoofsaaklik op ryper vrugte geproduseer word. Hierdie
swam infekteer ook net ryp vrugte.
Die gedrag van luggedraagde M laxa conidia is bestudeer op nektarien- (kultivar
Flamekist) en pruimvrugte (kultivar Laetitia). 'n Inokulasie-metode wat natuurlike infeksie
deur luggedraagde konidia simuleer, is vir hierdie studies gebruik. Vrugte van die pitverharding-, twee weke voor oes-, oesstadium, asook koud-opgebergde vrugte (nektariene,
4 weke by -o.soe gevolg met 1 week by 23°C en ±56% RH; pruime, 10 dae by -O.5°e, 18
dae by 7.Soe gevolg deur 1 week by 23°C en ±56% RH), is met droë konidia in 'n inokulasietoring
geïnokuleer. Die vrugte is vir periodes wat gewissel het van 3 tot 48 h geïnkubeer by
hoë relatiewe humiditeit (~93% RH, vogtige vrugte), of dit is bedek met'n film water (nat
vrugte). Die gedrag van die enkelspore (konidia) op die vrugoppervlak is met 'n
epifluorisensiemikroskoop bestudeer. Skilsegmente is gekleur in 'n kleurstof, bevattende
fluorisein diasetaat, analien-blou en blankofor. Die vermoë van die enkelspore om die
vrugoppervlak te koloniseer, te penetreer en om siekte-uitdrukking te induseer, is met 'n
differensiële stel toetse bepaal. Vir hierdie toetse is die vrugte oppervlakkig gesteriliseer
(30 s in 70% etanol), of nie-steriel gelaat. In elke groep is vrugte geneem vir isolasie
(skilsegment-to\~ts), of gedoop in "n 3% parakwat-oplossing (parakwat vrugtoets), of\,
onbehandeld gelaat (onbehandelde vrugtoets ). Die. bevindinge het op die soortgelyke gedrag
van M laxa enkelspore op die verskillende vrugsoorte gedui: appressoria en direkte
penetrasie is nie waargeneem nie, en kiembuise het die vrugte hoofsaaklik deur
huidmondjies, lentiselle en mikro-krakies .in die vrugskil gepenetreer. Deur luggedraagde
spore te bestudeer, is sekere subtiele effekte van die vrug op die gedrag van enkelspore op die
vrugoppervlak waargeneem. Op beide vrugtipes is geen nadelige effek op konidiurn- en
kiembuisoorlewing opgemerk wanneer die vrugte onder hoë vogtoestande geïnkubeer is.
Konidiurn- en kiembuisoorlewing is egter drasties verlaag hoe langer die vrugte onder nat
toestande geïnkubeer is. Die bevindinge van die skilsegment-, parakwat en onbehandelde
vrugtoetse het duidelik daarop gewys dat die vrugskil van nektarien en pruim nie gepenetreer
is tydens die pitverhardingstadium nie, latente infeksies is nie gevorm nie, en die vrugte was
bestand teen siekte-uitdrukking. Hierdie fasette op beide vrugtipes is ook nie beinvloed deur
inkubasie-natheid nie. Die beskermingskapasiteit van die vrugskil van hierdie steenvrugtipes
het egter drasties verskil later in die seisoen. Nektarien-vrugskille is meer geredelik
gepenetreer en siekte-uitdrukking het toegeneem met rypwording. Penetrasie en siekteuitdrukking
is verder in 'n groot mate deur inkubasie-natheid bevoordeel. Rypwordende
pruime het egter nie so In drasties verandering in die beskermingskapasiteit van die vrugskil
getoon nie. Die invloed van inkubasie-natheid op infeksie en siekte-uitdrukking was ook
minder opsigtelik as op nektarien. Pruimvrugte van die twee weke voor oes-, oesstadium, en ,
koud-opgebergde pruime, wat onder hoë vog geïnkubeer is, het simptoomloos in die
onbehandelde vrugtoets gebly. Vrugte van hierdie stadia het slegs simptome ontwikkel na periodes van langer as 12 h onder nat toestande. Die parakwat-behandelde vrugtoets het
egter gewys dat die pruimvrugte meer vatbaar vir latente infeksies raak, maar steeds nie so
vatbaar soos die nektarienvrugte nie. Gesamentlik dui hierdie bevindinge daarop <41tM laxa
bruinvrot epidemies op pruim en nektarien afhanklik is van inokulumvlakke op rypwordende
vrugte, asook die weerstoestande gedurende die vooroes- en oesstadia. Die
beskermingskapasiteit van pruim vrugskille was egter aansienlik meer effektief as dié van
nektarien vrugte. Wonde op vrugte sal dus 'n groter rol speel in die epidemiologic van M
laxa op pruim.
Infeksie van vars wonde deur luggedraagde M laxa konidia, en deur konidia en
kiembuise wat reeds op die vrugoppervlak gevestig is, is gevolglik bestudeer. Pruimvrugte
(kultivar Laetitia) van die pitverharding-, twee weke voor oes-, oesstadium, asook koud-
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opgebergde vrugte is in 'n inokulasie-toring geïnokuleer met droë M laxa konidia. .Infeksie , ,
van nie-gewonde vrugte en van vars wonde deur luggedraagde konidia op droë, vogtige en
nat pruim vrugoppervlaktes, asook deur konidia en kiembuise wat reeds op die vrugoppervlak
onder hierdie toestande gevestig is, is bepaal. Nie-gewonde groen tot ryp vrugte het meestal
simptoomloos gebly, terwyl koud-opgebergde ryp vrugte wel verrot het. Wonde .het die
hoeveelheid infeksie deur luggedraagde spore drasties vermeerder. Konidia wat geïnokuleer
is op vrugte met vars wonde, was meer in staat om hierdie wonde te infekteer as konidia en
kiembuise wat 4 dae voor wonding gevestig is. Hierdie afname in infektiwiteit was meer
sigbaar op die vogtige, maar veral die nat vrugte. Hierdie studie het duidelik gewys dat
inokulumvlakke op rypwordende vrugte verlaag moet word deur sanitasie-praktyke en
fungisiedtoedienings. Dit is verder belangrik om vrugte, veral rypwordende vrugte, teen
wonding te beskerm.
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A preliminary study on the effect of climatic conditions and fruit mineral concentration on the development of lenticel damage in 'Tommy Atkins' and 'Keitt' mangos (Mangifera indica L.) and rind pitting in 'Benny Valencia' oranges (Citrus sinensis).Magwaza, Lembe Samukelo. January 2008 (has links)
The South African fresh fruit industry is a significant exporter, accounting for
approximately 45% of the country’s agricultural exports. Of the total exported fruit in the 2005/06 season, 60% was subtropical fruit. However, certain physiological rind disorders such as mango lenticel damage and citrus rind pitting are frequently observed, reducing the commercial value of the fruit. This thesis deals with the epidemiology of these rind physiological disorders, in an attempt to obtain basic information that could serve as a guideline to predict and manage the fruit susceptibility to these disorders. The study further investigated the relative effects that certain pre-harvest factors have on the postharvest development of these disorders. Factors of particular interest were harvest maturity, climate and the mineral content of the fruit. Rind pitting is a physiological disorder of citrus that develops during storage. A study was conducted to investigate the relative effects that certain pre-harvest factors have on the post-harvest development of superficial rind pitting in ‘Benny Valencia’ oranges. Factors of particular interest were harvest maturity, climate and the mineral content of the fruit. In addition, trees were treated with two different formulations of
nitrogen viz. limestone ammonium nitrate (LAN) and a slow release nitrogen fertilizer (Horticote®), during March 2006. The fruit were then sampled on a two-weekly basis over a period of three months. On each sampling date a set of quality related readings, such as juice sugar and titratable acid concentration were taken, after which the mineral concentration of the exocarp and mesocarp was measured. Fruit
were also stored under export simulation conditions.
The results indicate that fruit from trees that received additional N were more susceptible to rind pitting than those from control trees. Of the two N applications, fruit from trees that received slow release N were more susceptible to rind pitting than fruit from trees that received the LAN treatment. Another important observation made was that the nitrogen concentration of oranges from trees that received extra nitrogen fertilizer was lower than that from the controls. In addition, experimental fruit
were smaller than control fruit. Fruit from trees that received the slow release nitrogen treatment were smallest. A sink/source hypothesis aimed at explaining this phenomenon has been formulated and is currently being investigated. A number of control mechanisms are also being explored.
Mango lenticel damage is a serious defect that occurs on the rind of the fruit. This condition causes fruit to attain a speckled appearance and become unattractive to the buyer. Each season, the disorder reduces the packout of fresh fruit by about 16%. Several preharvest factors play a critical role in the postharvest development of lenticel damage. Preliminary studies have shown that the incidence of lenticel damage has some relationship to fruit moisture and fruit nutrient concentration, depending on which of these factors first achieve a critical threshold.
A study was conducted to develop appropriate skin moisture content parameters to predict lenticel damage potential before harvest. The study further aimed to provide certain biological markers regarding appropriate nitrogen fertilization practices to reduce lenticel damage. To do this, two trials were conducted approximately a month before harvest. Firstly, a plastic ground cover to restrict water supply was laid under ‘Tommy Atkins’ trees at Numbi Estates in the Hazyview area of the Mpumalanga province, South Africa. Secondly, additional nitrogen was applied as
three different formulations, viz. limestone ammonium nitrate (LAN), potassium nitrate (KNO3), and a slow release nitrogen fertilizer under trade name Horticote®, to two ‘Tommy Atkins’ and two ‘Keitt’ orchards at Bavaria Estates in the Hoedspruit area of the Limpopo province, South Africa. Fruit samples were harvested, packed and stored at different intervals after rain during January 2006.
With regard to lenticel damage on ’Tommy Atkins’ fruit from Numbi, there was no significant difference between the control and plastic cover treatments. However, when compared to fruit from other localities, the Numbi fruit had the highest incidence of lenticel damage, followed by the conventional orchard at Bavaria. The Numbi fruit, which had the highest incidence of lenticel damage, also had the highest pulp and skin nitrogen concentration. Of the four treatments at Bavaria, the LAN treatment had the highest incidence of lenticel damage, but the pulp and skin nitrogen concentrations of this treatment were comparable with the other treatments. The organic fruit had significantly lower lenticel damage incidence and also had the lowest pulp and rind nitrogen concentrations.
Similarly, ‘Keitt’ results showed that the intensity of lenticel damage was significantly higher in the orchard that received additional nitrogen in the form of LAN. From the results it was, however, not possible to formulate nitrogen-lenticel damage correlations. The study failed to prove the case for a direct relationship between the disorder and with nitrogen, as there were no significant or consistent correlations with nitrogen content. An interesting relationship was nevertheless observed between lenticel damage and the time of harvest before and after rainfall. The
results indicated that both ‘Tommy Atkins’ and ‘Keitt’ fruit become more susceptible to lenticel damage when harvested a day after rainfall and this gradually reduces afterwards. The effect of rainfall in this regard and a sink-source hypothesis arising from these observations are also discussed. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.
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Leaf blackening of proteasStephens, Iain Andrew 04 1900 (has links)
Dissertation (PhD (Agric))--University of Stellenbosch, 2003. / ENGLISH ABSTRACT: Leaf blackening is a particular problem limiting vase life and marketability of
Protea cut flowers. This research investigated suppression of Protea leaf blackening
with a specific focus on Protea cv. Sylvia (P. eximia x P. susannae) cut flowers.
Leaf blackening decreased significantly with decreasing storage temperatures m
'Sylvia' proteas and this was attributed to lower respiration rate and conservation of
carbohydrate. Low storage temperatures were beneficial in short term handling
procedures encountered during airfreight. However, use of low temperatures alone
during the longer sea freight period was unsatisfactory in either maintaining or
extending 'Sylvia' protea vase life. Cooling of 'Sylvia' proteas under vacuum
significantly suppressed leaf blackening and was of greater benefit than forced air
cooling.
Although removal of the uppermost leaves delayed leaf blackening in short term
storage no significant benefit was found for longer storage periods. Girdling directly
beneath the 'Sylvia' protea flowerhead significantly reduced leaf blackening and in
combination with low storage temperatures (O°C) enabled a significant extension in
both storage and vase life of 'Sylvia' proteas.
'Sylvia' proteas did not exhibit a climacteric respiration peak during 96 h storage
at O°C. Exposure to ethylene did not increase Protea leaf blackening or have a
detrimental effect on vase life of either proteas or pincushions evaluated.
No beneficial response to sucrose supplementation was found in 'Sylvia' proteas.
Analysis of the sugar content of both flowerhead and leaves indicated that glucose supplementation might be of benefit and was investigated. Holding solutions of 2.5 %
glucose significantly extended vase life due to a significant reduction in leaf
blackening. Vase life was terminated due to flowerhead collapse instead of leaf
blackening for the first time in 'Sylvia' protea cut flowers. Vase life was significantly
extended by 2:3% glucose pulse solutions and leaf blackening significantly suppressed
with increasing glucose pulse concentration. Solution uptake was facilitated by use of
high intensity PAR lights in the early morning and was attributed to increased stomata
opening and a consequent increase in both transpiration and glucose solution uptake.
The faster uptake of glucose solutions in shoots harvested in the afternoon was
attributed to higher shoot temperatures and consequent transpiration rate to those
harvested in the morning. There was a significant reduction in uptake time with
increasing pulse temperature, which enabled vacuum cooling to be performed earlier
further benefiting storage and vase life extension.
Enclosure of 'Sylvia' proteas in polyethylene (PE) lined cartons did suppress leaf
blackening in non-pulsed shoots. However, this had no practical significance on useful
vase life, which was terminated at this point due to excessive leaf blackening. Water
loss appears to have a minimal influence on 'Sylvia' protea leaf blackening.
Shading at four and three weeks prior to harvest coincided with a period of
significant flowerhead dry mass increase. It is thought that shading at this point,
concurrent with an increased carbohydrate demand by the developing flower head
resulted in a temporary limitation in carbohydrate supply resulting in the appearance of
preharvest leaf blackening. It would appear that proteas do not store large quantities of carbohydrate. Although accentuating winter light conditions by shading did result in a
decrease in carbohydrate content the fact that carbohydrate content was already low
precluded shading from having a significant impact on postharvest leaf blackening.
The finding that glucose was beneficial in extension of both storage and vase life
of 'Sylvia' proteas directed research into its use for other Protea and Leucospermum
cut flowers. Significant differences in the response to glucose supplementation were
found in both Protea and Leucospermum (pincushions). The significant difference in
sensitivity to glucose concentration in 'Pink Ice' proteas (phytotoxic at 2:4%) and
'Susara' proteas (no apparent toxicity), in conjunction with a lack of response in
'Cardinal' proteas, a hybrid from the same parents as 'Sylvia' indicates the need to
direct future research to individual cultivars. Glucose supplementation had no
beneficial effect on vase life of 'Scarlet Ribbon' and 'Tango' pincushions, whilst
significantly extending vase life of 'Cordi', 'Gold Dust', 'High Gold' and 'Succession'
pincushions. / AFRIKAANSE OPSOMMING: Blaarverswarting is 'n spesifieke probleem wat die vaasleeftyd en die
bemarkbaarheid van Protea snyblomme beperk. In hierdie navorsing is ondersoek
ingestel na die onderdrukking van Protea blaarverswarting met spesifieke fokus op die
snyblomme van die kv. Sylvia (P. eximia x P. susannae).
Die voorkoms van blaarverswarting by 'Sylvia' het merkbaar afgeneem tydens die
verlaging van bergingstemperature. Hierdie afname is toegeskryf aan 'n laer
respirasietempo en die behoud van koolhidrate. Lae bergingstemperature in die
korttermyn hantering van die produk tydens lugvrag was voordelig. Die gebruik van
lae temperature, slegs tydens die langer verskeepingsperiode, was egter onbevredigend
vir vaasleeftyd verlenging en onderhoud van 'Sylvia' protea. Die afkoeling van
'Sylvia' proteas onder vakuum het blaarverswarting in 'n groot mate onderdruk en het
beter resultate gelewer as geforseerde lugverkoeling.
Alhoewel die verwydering van die heel boonste blare blaarverswarting by
korttermynopberging vertraag het, het dit geen merkbare voordele vir langer
bergingsperiodes ingehou nie. Ringelering direk onder die blomkop van die 'Sylvia'
protea het blaarverswarting aansienlik verminder, en saam met lae bergingstemperature
(O°C) het dit 'n merkbare verlenging in beide die bergingstyd en die vaasleeftyd van
'Sylvia' proteas teweeggebring. 'Sylvia' proteas het geen klimakteriese respirasiekruin tydens 'n bergingsperiode
van 96 uur teen O°C getoon nie. Blootstelling aan etileen het nie die Protea
blaarverswarting laat toeneem of 'n nadelige effek op die vaasleeftyd van die proteas of
speldekussings wat geevalueer is, gehad nie.
Geen voordelige reaksie op sukrose-byvoeging is in 'Sylvia' proteas gevind nie.
'n Analise van die suikerinhoud van beide die blomkoppe en die blare het aangetoon
dat 'n glukose-byvoeging moontlik voordelig kon wees, en hierdie aspek is ondersoek.
Met stooroplossings van 2,5 % glukose is die vaasleeftyd aansienlik verleng omdat daar
'n merkbare afname in blaarverswarting was. Vir die eerste keer in die geval van die
'Sylvia' protea, het die vaasleeftyd van die snyblomrne tot 'n einde gekom omdat die
blornkoppe uitmekaar gebreek het en nie omdat blaarverswarting ingetree het nie. Die
vaasleeftyd is aansienlik verleng met ~ 3% glukose-pulsoplossings, en blaarverswarting
is merkbaar onderdruk met die verhoging van hierdie oplossings se
glukosekonsentrasie. Die opname van die oplossings is gefasiliteer deur hoe intensiteit
PAR (fotosinteties-aktiewe radiasie) ligte vroeg in die oggend, en is toegeskryf daaraan
dat meer huidmondjies oopgegaan het. Dit het gelei tot 'n toename in transpirasie en
'n toename in die opname van die glukose-oplossing. Die feit dat glukose-oplossings
vinniger opgeneem is deur lote wat in die middag geoes is, is toegeskryf daaraan dat
loottemperature dan hoer is as soggens en gevolglik lei tot 'n vinniger
transpirasietempo. Daar was 'n merkbare afname in die opnametyd wanneer die
temperatuur van die pulsoplossings verhoog is. Vakuumafkoeling kon dus vroeer
toegepas word, wat 'n verlenging in bergingstyd en vaasleeftyd tot gevolg gehad het. Verpakking van 'Sylvia' proteas in kartonne wat met poli-etileen uitgevoer is, het
blaarverswarting van lote wat nie aan pulsering onderwerp is nie, onderdruk. Hierdie
maatreel het egter geen praktiese waarde met betrekking tot vaasleeftyd nie; die
vaasleeftyd het tot 'n einde gekom as gevolg van omvangryke blaarverswarting. Dit
lyk asof waterverlies weinig invloed het op die blaarverswarting van' Sylvia' proteas.
Die vermoede bestaan dat lae koolhidraatvlakke proteas ontvanklik maak vir
blaarverswarting. Alhoewel die beklemtoning van winterligtoestande deur
beskaduwing gelei het tot 'n afname in koolhidraatinhoud, was hierdie inhoud reeds
laag en blaarverswarting na die oes is nie beinvloed nie. Beskaduwing tydens die vier
en drie weke voor oestyd het saamgeval met 'n tydperk van aansienlike toename in die
droe massa van die blomkop. Die vermoede bestaan dat beskaduwing tydens hierdie
fase, saam met die toename in die ontwikkelende blomkop se behoefte aan koolhidrate,
aanleiding gegee het tot 'n tydelike beperking in koolhidraatvoorraad wat die voorkoms
van blaarverswarting voor die oes tot gevolg gehad het.
Die bevinding dat glukose voordelig is vir die verlenging van beide die
bergingstyd en die vaasleeftyd van 'Sylvia' proteas het die navorsing gerig om ook
ondersoek in te stel na die gebruik daarvan vir ander Protea en Leucospermum
snyblomme. Merkbare veranderinge is gevind in die reaksie op glukosebyvoegings in
beide Protea en Leucospermum (speldekussings). Die opmerklike verskil in
sensitiwiteit vir glukosekonsentrasie in 'Pink Ice' proteas (fitotoksies by ~ 4%) en
'Susara' proteas (geen klaarblyklike toksisiteit), saam met 'n gebrek aan reaksie by
'Cardinal' proteas, 'n hibried van dieselfde ouers as 'Sylvia', dui aan dat verdere navorsing op individuele kultivars toegespits sal rnoet word. Glukosebyvoegings het
geen voordelige uitwerking op die vaasleeftyd van 'Scarlet Ribbon' en 'Tango'
speldekussings gehad nie, terwyl dit die vaasleeftyd van 'Cordi', 'Gold Dust', 'High
Gold' en 'Succession' speldekussingkultivars merkbaar verIeng het.
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Quantifying non-uniformity in hot air treatment using tomato as a test material for postharvest quality and disease controlLu, Jianbo. January 2008 (has links)
The influence of uniformity of heat transfer with respect to the effect of heat treatment was investigated by correlating engineering parameters with the quantified heat treatment effects. Differences in treatment effect in terms of quality, anti-pathogen and chilling injury (CI) control properties among commodities was studied by exposing them to different target temperatures. Similar effects were also evaluated and quantified within an individual commodity by a custom-designed device. This device, whose design parameters were based on a heat transfer simulation, insured that one hemisphere of a tomato was exposed to air at 39°C and 0.24 m s-1; while the other hemisphere was exposed to air at a lower temperature with a velocity of0.24 m s-1 or 0.12 m s-1. / Single-temperature heat treatment was most effective in limiting pathogen development and varied according to the parameter measured: 38°C for hypersensitive response (HR), 36°C for tissue breakdown, 36°C, 38°C or 39°C for mycelium abundance, and 38°C or 39°C for lesion size. Bilateral differences in temperature across the fruit significantly affected disease control: decreasing temperature differences significantly improved the uniformity of disease control. / Some of the effects of heat treatment on tomato quality, such as color development and resistance to CI, appear to be localized. A significant difference in redness was identified between heated parts and unheated parts of tomato fruits immediately after treatment; and the differences persisted during storage. Differences in lightness and chroma were noted on day 4. Delay in ripening caused by heat treatment was confirmed through the higher TA and TSS values of heated tomatoes or heated portion of partially heated tomatoes. / The heated parts of tomatoes showed a stronger resistance to chilling injury. The effective temperature control range for CI was wide, but temperatures higher than 39.5°C for 23 h hot air treatment could lead to adverse effects. / Differences in physiological effects between hemispheres in two chambers was reduced by directly decreasing the temperature difference between upper and lower chambers or relatively increasing the heating air flow rate, highlighting the importance of improving the uniformity of air flow around each individual treated fruit.
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Postharvest losses and changes in physico-chemical properties of fruit (peaches, pears and oranges) at retail and during post-purchase storageMatare, Tsaurayi Edwin 12 1900 (has links)
Thesis (MScFoodSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: Postharvest fruit loss is a major challenge in addressing food security, sustainable management of resources and profitability of agribusiness. The incidence of postharvest loss and changes in physico-chemical properties of three types of fruit (peaches, pears and oranges) were evaluated at retail and during post-purchase storage. The amount of physical loss at the three retail outlets studied ranged from 3.61% to 18.09% among the fruit types, with the highest incidence occurring in peaches. The estimated annual national physical loss at retail was 418 tons for pears, 1000 tons for oranges, and 7 240 tons for peaches. Based on the WHO recommended 146 kg per capita per year consumption of fruit, the total loss of the three types of fruit was sufficient to meet the dietary fruit requirements of 50 000 people per annum. Similarly, based on the recommended daily allowance of 50 mg of ascorbic acid, these losses could meet the annual vitamin C needs of 82 000 people. The estimated monetary value of the losses at retail ranged from R2.2 million to R96.87 million per annum depending on fruit type and retail outlet. The land wasted to produce lost fruits was 1965 ha while energy wasted was 32.77 x 106 MJ. Greenhouse gas emission of the losses was 2870 tons CO2eq and total water footprint 68 0000 m3. Losses were mainly due to the presence of severe physical damage, rots and physiological disorders. There were significant variations in physico-chemical properties of fruit of the same type from different retail outlet. Although ambient temperature storage improved fruit colour and some chemical constituents responsible for palatability, it was associated with high physical and nutritional (vitamin C) losses. Results from this study show that appropriate harvesting maturity, packaging and maximum care in fruit handling is essential in reducing postharvest losses. Efficient cold chain management and fruit inspection for rots and damages could help to reduce subsequent spoilage at retail and during post-purchase storage. Given that the incidence of postharvest fruit loss observed at retail is the result of cumulative effects along the supply chain, further studies are warranted to map fruit history and magnitude of losses along the value chain. / AFRIKAANSE OPSOMMING: Naoesvrugteverlies is ‟n groot uitdaging in die strewe na voedselsekerheid, volhoubare hulpbronbestuur en winsgewende landbousake. Die voorkoms van naoesverlies sowel as fisiko-chemiese naoesveranderinge by drie vrugtesoorte (perskes, pere en lemoene) is gevolglik by kleinhandelsafsetpunte én gedurende berging ná aankoop beoordeel. Die graad van fisiese verlies by die drie betrokke kleinhandelspunte het gewissel van 3,61% tot 18,09% tussen die vrugtesoorte, met die hoogste verlies by perskes. Die geraamde jaarlikse nasionale fisiese verlies by die kleinhandelspunte was 418 ton pere, 1 000 ton lemoene en 7 240 ton perskes. Op grond van die Wêreldgesondheidsorganisasie se aanbevole jaarlikse vrugte-inname van 146 kg per persoon, was die totale verlies van die drie vrugtesoorte genoeg om aan die vrugtedieetvereistes van 50 000 mense per jaar te voldoen. Op grond van die aanbevole daaglikse inname van 50 mg askorbiensuur, kan hierdie verlies eweneens in die jaarlikse vitamien C-behoeftes van 82 000 mense voorsien. Die geraamde geldwaarde van die verlies by die kleinhandelspunte strek van R2,2 miljoen tot R96,87 miljoen per jaar, na gelang van die vrugtesoort en bepaalde kleinhandelspunt. Die vermorste grond om die verlore vrugte te produseer, was 1 965 ha, terwyl energievermorsing op 32,77 x 106 MJ te staan gekom het. Kweekhuisgasvrystellings met betrekking tot die verlies was 2 870 ton CO2e, en die totale watervoetspoor 68 0000 m3. Vrugteverlies kon hoofsaaklik aan ernstige fisiese skade, verrotting en fisiologiese afwykings toegeskryf word. Daar was beduidende variasies in die fisiko-chemiese eienskappe van dieselfde vrugtesoort by verskillende kleinhandelaars. Hoewel berging by omgewingstemperatuur vrugtekleur en bepaalde chemiese komponente vir smaaklikheid verbeter, word dit ook met groot fisiese en voedingstof- (vitamien C-) verliese verbind. Die resultate van hierdie studie toon dat toepaslike oesrypheid, die regte verpakking en maksimum sorg in vrugtehantering noodsaaklik is om naoesverlies te verminder. Doeltreffende koelkettingbestuur en vrugte-inspeksie vir verrotting en skade kan latere bederf by kleinhandelsafsetpunte sowel as gedurende berging ná aankoop help beperk. Aangesien die naoesvrugteverlies wat by die kleinhandelspunte waargeneem is uit kumulatiewe faktore in die verskaffingsketting spruit, is verdere studies nodig om vrugtegeskiedenis na te spoor en die omvang van die verlies in die algehele waardeketting te bepaal.
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