Review Article Postharvest Handling Practices And .
Hindawi Publishing CorporationAdvances in AgricultureVolume 2016, Article ID 6436945, 8 pageshttp://dx.doi.org/10.1155/2016/6436945Review ArticlePostharvest Handling Practices and Treatment Methods forTomato Handlers in Developing Countries: A Mini ReviewIsaac Kojo Arah,1 Gerald K. Ahorbo,1 Etornam Kosi Anku,1Ernest Kodzo Kumah,1 and Harrison Amaglo21Department of Agro-Enterprise Development, Ho Polytechnic, P.O. Box HP 217, Ho, GhanaDepartment of Agricultural Engineering, Ho Polytechnic, P.O. Box HP 217, Ho, Ghana2Correspondence should be addressed to Isaac Kojo Arah; isaacarah@gmail.comReceived 15 March 2016; Accepted 20 April 2016Academic Editor: Pia ParolinCopyright 2016 Isaac Kojo Arah et al. This is an open access article distributed under the Creative Commons Attribution License,which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.Tomato production has increased in recent years due to the economic and nutritional importance of the crop. This increaseis made possible by the numerous research advances made along the entire value chain. However, scientific research has beenfocussed mainly on production whilst neglecting postharvest issues. Tomato producers have therefore enjoyed good harvestsin recent times, though the good harvests of those from developing countries do not translate into profit as most are lost afterharvest. From this study, it was revealed that the postharvest quality and shelf life of the fruit in part will depend on somepostharvest handling practices and treatments carried out after harvest. Handling practices like harvesting, precooling, cleaningand disinfecting, sorting and grading, packaging, storing, and transportation played an important role in maintaining quality andextending shelf life. Using appropriate postharvest treatments like refrigeration, heat treatment, modified atmosphere packaging(MAP), and 1-methylcyclopropene (1-MCP) and calcium chloride (CaCl2 ) application was also vital. It was concluded by this studythat the quality of the harvested fruit can be maintained and shelf life extended by using appropriate postharvest handling practicesand treatment methods. Failure to adhere to these practices will result in a high amount of loss.1. IntroductionTomato (Solanum lycopersicum L.) is one of the mostwidely cultivated and extensively consumed horticulturalcrops globally [1]. Although the crop is believed to havebeen originated from the wild in Peru, Ecuador, and otherparts of tropical Americas [2], the nutritional and economicimportance of the crop has led to its global production.By weight, tomatoes rank second only to potatoes in globalproduction of all horticultural produce [3]. Tomato can beeaten in various ways and in a countless number of dishes.It can be eaten raw in salads or as an extract or sauce inmany dishes and in drinks [4]. Tomato and tomato-basedfoods provide a wide variety of nutrients and many healthrelated benefits to the body [5]. Tomato contains higheramounts of lycopene, a type of carotenoid with antioxidantproperties [6] which is beneficial in reducing the incidenceof some chronic diseases [7] like cancer and many othercardiovascular disorders [8]. In regions where it is beingcultivated and consumed, it constitutes a very essential partof the people’s diet. The numerous uses of tomatoes can bea contributing factor to its widespread production. Tomatoproduction has increased in recent years to about 163 milliontonnes by 2013 [9] due to the economic and nutritionalimportance of the crop. This increase according to Alonso etal. [10] is made possible by the numerous research advancesalong the entire value chain. However, scientific research hasfocussed on production mainly whilst neglecting postharvestissues. Kader [11] reported that less than 5% of resourceallocation in agricultural research in developing countries ison postharvest. This means more than 95% of resource allocation is on production. Research in the production aspect ofthe entire value chain in tomato production has resulted inimproved cultivars or varieties which are high yielding andresistant to both diseases and drought. This has made tomatoproducers enjoy good harvests in recent years; however, the
2good harvest of many producers in developing countriesdoes not translate into profit as most are lost after harvest.Postharvest loss is a major challenge hampering tomatoesproduction in most developing countries [12]. Tomato beinga perishable crop as a result of its high moisture contenthas short shelf life of about 48 hours [13] under tropicalconditions. Specialised postharvest handling practices andtreatment methods are needed in order to extend the shelf lifeof the crop after harvest. Failure to adhere to these specialisedhandling practices and treatment methods will result in highamount of loss. Losses of up to 50% can be recorded intomatoes between the harvesting and consumption stages ofthe distribution chain in tropical countries [11, 14] which isin line with estimates by Gustavo et al. [15] that between49 and 80% of all agricultural commodities end up withthe consumer whilst the remainder is lost. It is thereforeimportant to know the appropriate handling practices andtreatment methods needed for harvested tomatoes in order toreduce postharvest losses thereby increasing profitability forhandlers in developing countries. The purpose of this papertherefore is to look at some postharvest handling practicesand treatment methods that can be used by handlers ofdeveloping countries and how they can affect the postharvestqualities and shelf life of harvested tomatoes.2. Some Postharvest HandlingPractices for TomatoesPhysical handling can have a drastic effect on the postharvestquality and shelf life of most harvested fruits and vegetables. For instance, rough handling during harvesting andafter harvesting can cause mechanical injuries which canaffect the postharvest quality and shelf life of harvestedfruit like tomatoes [16]. It is therefore important to knowsuitable postharvest handling practices needed to maintainthe quality and extend the shelf life of harvested tomatoesfor producers in developing countries. Some of the handlingpractices which include harvesting, precooling, cleaning anddisinfecting, sorting and grading, packaging, transportation,and storage are discussed below.2.1. Harvesting. The physiological maturity of any fruit atharvest has an important effect on postharvest quality of thatfruit [17]. Therefore, care must be taken as to when to harvestthe fruit in order to attain the best quality. The shelf life offruits and vegetables is described by postharvest physiologistsin three stages: the maturation, ripening, and senescencestages. The maturation stage gives an indication of the fruitbeing ready for harvest [18]. Tomatoes can be harvested ineither matured green, partially ripe, or ripe state. Tomatobeing a climacteric fruit can be harvested at the maturedgreen state allowing ripening and senescence to occur duringthe postharvest period of the fruit. Producers targetingdistant markets must harvest their tomatoes in a maturedgreen state [19]. Harvesting tomatoes in matured green statewill not only give producers ample time to prepare the fruitfor the market but also prevent mechanical injuries duringharvesting. Unfortunately, most producers from developingAdvances in Agriculturecountries especially those in Africa harvest tomatoes whenthey are partially or fully ripened [20]. Fully ripened tomatoesare susceptible to mechanical injuries during harvestingresulting in shorter shelf life [21, 22]. Care must thereforebe taken when harvesting tomatoes in ripe state to avoidthese injuries which will hasten deterioration. Also, the use ofharvesting and packaging containers with sharp edges mustbe discouraged to prevent bruising and puncturing of thefruits. Harvesting of fruits should be done in either early orlate hours of the day to avoid excessive field heat generation.The inability of producers to follow these simple but vitalharvesting procedures coupled with some inefficiencies (likelack of ready market and processing facilities) in the entirevalue chain may explain the reasons why there are lotsof losses in tomatoes harvested at fully ripened state inmost developing countries. Access to ready market is a bigchallenge when dealing with highly perishable crops liketomatoes in most developing countries. This challenge can beattributed to many factors but the major factor is the patternof production resulting in high gluts. In most developingcountries, a greater proportion of tomato production is rainfed. This causes high peaks in production during the rainingseasons which is always more than the local consumptionof the crop. The problem is further compounded by thelack of processing facilities or equipment which can beused to process the crop into a more durable form forlater use. Processing tomatoes into a more durable formwill also serve as a means of value addition which willfinally give a better market value for the crop. Producersfrom developed countries always have supply contracts withmultinational supermarkets to supply tomatoes. For instance,Blush Tomatoes, a tomato producing company in Australia,supplies Coles and Woolworth supermarkets with tomatoesmaking access to market already predetermined [12]. In thecase of producers in many developing countries, there is lackof communication between producers and consumers andalso lack of market information [11]. This could be the mainreason for the mismatch between production and availablemarkets. Producers therefore have to sell their harvest at verylow cost to prevent total loss.2.2. Precooling after Harvest. Field heat is usually high andundesirable at harvesting stage of many fruits and vegetables and should be removed as quickly as possible beforeany postharvest handling activity [23]. Excessive field heatgives rise to an undesirable increase in metabolic activityand immediate cooling after harvest is therefore important[24]. Precooling minimises the effect of microbial activity,metabolic activity, respiration rate, and ethylene production[25], whilst reducing the ripening rate, water loss, and decay,thereby preserving quality and extending shelf life of harvested tomatoes [26]. The suitable temperature range of about13–20 C for tomato handling can be attained either in theearly hours of the morning or late in the evening [27, 28]. Harvested fruit must be precooled to remove excessive field heatif harvested at times other than the recommended periods. Acheap but effective way of precooling harvested tomatoes forproducers of developing countries can be by dipping fruits incold water (hydrocooling) mixed with disinfectants such as
Advances in Agriculturethiabendazole and sodium hypochlorite if availability of cleanwater is not a challenge. This method is effective in removingfield heat whilst reducing microbial loads on the harvestedfruits. Tomato producers in developing countries especiallythose from Africa assemble their harvested produce undertree shade in an attempt to reduce field heat [29]. Tree shade,however, is not a reliable and effective way of reducing fieldheat in harvested produce. Arah et al. [12] therefore suggestedthat the adoption of a simple on-farm structure like a smallhut made of thatch can be very beneficial in precooling ofharvested tomatoes.2.3. Cleaning or Disinfecting. Proper hygiene is a major concern to all produce handlers, because of not only postharvestdiseases, but also incidence of food-borne illnesses thatcan be transmitted to consumers. According to a report bythe Government of India [30], Salmonella, Cryptosporidium,Cyclospora, and hepatitis A virus are some examples of diseasecausing organisms that have been transmitted to consumersthrough fresh fruits and vegetables. Unfortunately, cleaningor disinfecting tomatoes after harvest is not a commonpractice for most tomatoes handlers in developing countriesespecially those from Africa. This practice may be attributedto either the unavailability of portable water at the productionsites or the sheer ignorance of the practice. However, inplaces where water is not a constraint, the use of disinfectantsin water either for washing or for cooling can reduce bothpostharvest and food-borne diseases in fruits and vegetables.The use of various disinfectants during postharvest treatment of tomatoes is well documented. For instance, sodiumhypochlorite solution has been used to sterilise tomato fruitsin order to reduce the incidence of fungal infection before anypostharvest treatment was applied [31]. Dipping of tomatofruits in thiabendazole solution reduced the microbial loadon the fruits [32]. Fruits and vegetables are usually treatedwith chlorinated water after washing to reduce the microbialload prior to packaging. Workneh et al. [33] indicate thatanolyte water dipping disinfection of tomatoes not onlyreduced the microbial loads on the fruits but also maintainedsuperior quality of tomatoes during storage. Disinfectioncan be used in conjunction with hydrocooling to achievethe purpose of reducing excessive field heat and reducingmicrobial infection at the same time.2.4. Sorting and Grading. One of the most important processes in packaging and marketing of fruit and vegetables issorting [34] and grading. Sorting is the removal of rotten,damaged, or diseased fruits from the healthy and cleanones. The damaged or diseased fruits can produce ethylenein substantial amounts which can affect the adjacent fruits[35]. Grading is also the process of categorising fruits andvegetables on the basis of colour, size, stage of maturity, ordegree of ripening. The two processes are vital in maintainingpostharvest shelf life and quality of harvested tomatoes.Sorting limits the spread of infectious microorganisms frombad fruits to other healthy fruits during postharvest handlingof tomatoes. Grading also helps handlers to categorise fruitsand vegetables in a given common parameter which enables3easy handling. For instance, grading on the basis of colouror maturity stage will help eliminate overripe fruits whichwill easily produce ethylene to hasten the ripening processin the whole batch. Commercial tomato producers normallyuse sophisticated systems that require precise sorting andgrading standards for their produce. Small-scale producersand retailers in developing countries in contrast may not usewritten down grading and sorting standards; however, theproduce must still be sorted and sized to some degree beforeselling or processing it.2.5. Packaging. Packaging is also one of the important aspectsto consider in addressing postharvest losses in fruits andvegetables. It is enclosing food produce or product to protectit from mechanical injuries, tampering, and contaminationfrom physical, chemical, and biological sources [36]. Packaging as a postharvest handling practice in tomato production isessential in putting the produce into sizeable portions for easyhandling. However, using unsuitable packaging can causefruit damage resulting in losses [37]. Some common packaging materials used in most developing countries includewooden crates, cardboard boxes, woven palm baskets, plasticcrates, nylon sacks, jute sacks, and polythene bags [37].Most of the abovementioned packaging materials do notgive all the protection needed by the commodity. Whilst themajority of these packaging materials like the nylon sacksdo not allow good aeration within the packaged commoditycausing a build-up of heat due to respiration, others like thewoven basket have rough surfaces and edges which causemechanical injuries to the produce. The wooden crate andthe woven palm basket are some of the common packagingmaterials used in many developing countries especially thosein Africa for packaging tomatoes. The major shortcomingof the wooden crate is in its height which creates a lot ofcompressive forces on fruits located at the base of the crate[38]. These undesirable compressive forces cause internalinjuries which finally result in reduced postharvest quality ofthe tomatoes [20]. There have been suggestions of modifyingthe wooden crate to make it more suitable for packagingtomatoes. Kitinoja [39] has therefore suggested that the depthof the crate should be reduced considerably to reduce thebuild-up of compressive forces which can cause mechanicalinjuries to fruits at the base of the crate after packaging. Thepalm woven baskets used by tomato handlers have sharpedges lining the inside which puncture or bruise the fruitwhen they are used. It has also been recommended by Idahet al. [37] that woven palm baskets should be woven with thesmooth side of the material turned inward.2.6. Storage. Tomato has very high moisture content andtherefore is very difficult to store at ambient temperaturesfor a long time. Meanwhile, storage in the value chainis usually required to ensure uninterrupted supply of rawmaterials for processors. Storage extends the length of theprocessing season and helps provide continuity of productsupply throughout the seasons. For short-term storage (up toa week), tomato fruits can be stored at ambient conditions[40] if there is enough ventilation to reduce the accumulation of heat from respiration. For longer-term storage, ripe
4tomatoes can be stored at temperatures of about 10–15 Cand 85–95% relative humidity [41]. At these temperatures,both ripening and chilling injuries are reduced to the minimal levels. These conditions are also difficult to obtain inmost tropical countries and therefore losses of appreciablequantities of harvested tomatoes have been reported [11, 14].This is consistent with the claim that the quality of tomato iscompromised when exposed to high temperatures and highrelative humidity [42]. Very low temperature storage too isdetrimental to the shelf life and quality of many tropicalfruits like tomatoes. For instance, refrigerating a tomatowill reduce its flavour, a quality trait of tomatoes which islargely determined by the total soluble solids (TSS) and pHof the fruit [43]. An understanding of the correct temperaturemanagement during storage of tomatoes is vital in extendingthe shelf life of the fruit whilst maintaining fruit qualities.Tomatoes handlers in tropical countries can store tomatoesfor short to intermediate time by using evaporative coolingsystem made from woven jute sacks.2.7. Transportation. In most developing countries, the production sites for many tomato producers are far from themarketing centres and also inaccessible by road. Transportingharvested tomatoes to the market on such bad road networkand the lack of proper transportation like refrigerated vansbecome a big challenge for both producers and distributors[44]. This challenge therefore causes unnecessary delays ingetting the produce to the market. Meanwhile, any delaybetween harvest and consumption of tomatoes can resultin losses [45]. Losses of up to about 20% are incurred byproducers due to transportation delays [46]. Producers willtherefore make use of any available means of transport fortheir produce without considering its appropriateness inorder to avoid delays. Some modes of transportation includehuman labour, donkeys, public transport, rented trucks,busses, lorries, fuel tankers, articulator trucks, and pick-upvans [37, 47]. However, the use of appropriate transportationfor tomatoes is a major factor to consider in postharvesthandling of the fruit. During transportation, the produceshould be immobilised by proper packaging and stacking toavoid excessive movement or vibration. Vibration and impactduring transportation as a result of undulations on roadsare one of the major causes of postharvest losses to mostfruits and vegetables especially tomatoes [37]. The bad natureof road networks in most developing countries thereforeprovides these unfavourable factors during transportationresulting in great losses. The wobbling nature of most ofthe vehicles coupled with the bad nature of roads causes alot of mechanical damage to the produce before it reachesits destination. Handlers from developed countries on theother hand use refrigerated containers and trailers whichtravel on reasonably good roads. Transporting tomatoes inrefrigerated trucks is not only convenient, but also effectivein preserving the quality of fruits. However, both the initialinvestment and the operation costs of these vehicles are veryhigh and beyond the affordable reach of most producersin developing countries. Handlers of developing countriestherefore transport their produce using the most affordablemode of transport without considering the effect it will haveAdvances in Agricultureon the postharvest quality of the produce. Even though handlers from developing countries may not have the capacity touse refrigerated trucks, they should be well educated on theconsequences that any other transportation option they usemay have on their produce.3. Postharvest TreatmentTechniques for TomatoesAfter harvesting, the tomato fruit still remains living andperforms all functions of a living tissue [48]. However, thepostharvest quality of the fruit at harvest cannot be enhancedby any postharvest technology but can only be maintained[49]. In order to maintain this quality, there are somepostharvest treatment methods that have to be adhered to inorder to achieve this goal. Below are some of the treatmentsmethods that can be used for harvested tomatoes.3.1. Refrigeration Storage. Refrigeration is one of the mosteffective methods of preserving the quality of many fruitsand vegetables for several days [32, 50]. Low temperaturestorage can protect nonappearance quality attributes liketexture, nutrition, aroma, and flavour in many harvestedfruits [51]. Tomato handlers have also used refrigerationstorage for tomatoes in attempt to extend shelf life. However,some fruits and vegetables of tropical origin, like tomatoes,are sensitive to chilling injury when they are stored belowtheir critical temperature of 10 C [52]. This shortcoming ofrefrigeration storage was reported by Lee et al. [53] andBabitha et al. [54] where low temperatures from refrigerationstorage caused chilling injuries which resulted in pitting,uneven ripening, and fungal infestation of stored fruits. Thisgives an indication that refrigeration storage may not be themost effective method of storing tomatoes for a long period.Another challenge in using refrigeration storage in tomatohandling in most developing countries is the huge initialcost which is beyond the reach of most of underresourcedhandlers. However, in situations where handlers can affordrefrigeration storage and temperature regulation is possible,temperatures of about 10–15 C should be maintained to avoidchilling injuries [41]. In spite of the high cost of refrigeration,it is very important to control storage temperatures andrelative humidity during storage, as these two parametersare the main causes of deterioration in fruits and vegetables.The required optimum temperatures of about 10–15 C and85–95% relative humidity [41] can be achieved by using lessexpensive methods of cooling such as evaporative coolingsystem as suggested by Workneh and Woldetsadik [55]. Insuch cooling system, air temperatures can be decreased toabout 16 C, whilst relative humidity can be increased toabout 91%, which is appropriate for reducing deteriorationof harvested tomatoes due to physiological weight loss [56].Evaporative coolers can be manufactured locally using lowcost materials like jute sacks, wooden planks, and basins.3.2. Postharvest Heat Treatment of Tomatoes. Postharvestheat treatment of fruits and vegetables is receiving moreattention as a way of reducing the incidence of chilling
Advances in Agricultureinjuries in temperature sensitive fruits of tropical origin.It is one of the approaches that can be used to avoid orreduce chilling injuries in stored fruits [57]. Postharvest heattreatments using hot air and heated water have been reportedto reduce chilling injuries in fruits like mangoes, oranges,zucchini, and tomatoes [50]. Heat treating of tomato fruitat temperatures of about 37–42 C prior to cold storage canslow down ripening whilst increasing pathogenic resistancewhen in storage [58]. Some studies have shown that heattreatment prior to storage enhanced or caused no changein some quality traits of stored tomatoes. For instance, TSSof heat treated tomatoes was unaffected when tomatoesripened at ambient temperatures [59] or when they ripenedin a modified atmosphere storage system [60]. However,uniform heat treatment before cold storage at 14 C actuallyincreased TSS and titratable acids (TA) when fruits ripenedas compared to the untreated fruits [61]. In situations whererefrigeration storage is possible, postharvest heat treatmentof tomatoes can be used in conjunction with refrigerationstorage in extending shelf life of harvested tomatoes.3.3. Modified Atmosphere Packaging (MAP). Modified atmosphere packaging (MAP) refers to a packaging technique ofusing specialised materials in packaging products in a predetermined composition of gases which are mainly oxygen (O2 )and carbon dioxide (CO2 ) after which there is no active effortof modifying the storage space [17]. The packaging materialsused in MAP allow for diffusion of gases through them until astable equilibrium is reached between the external gases andthose inside the package [62]. The most commonly used MAPmaterials are polyethylene terephthalate (PET), low density polyethylene (LDP), high density polyethylene (HDP),polyvinyl chloride (PVC), polypropylene [63], polystyrene[64, 65], and some chemically modified derivatives [17]. Thebenefit of using MAP is not only in providing a modifiedatmosphere to control ripening [66], but also in reducingwater loss in stored products [67], reducing mechanicalinjuries, and enhancing better hygiene which reduces thespread of food-borne diseases [66]. MAP creates water saturated or near-saturated atmosphere (high relative humidity)around the fruit which reduces water loss and shrinkage [32].Water loss and subsequent shriveling of tomatoes in tropicalregions are one of the causes of their deterioration. Fruitshriveling may become evident with any small percentage ofmoisture loss. The use of MAP by tomatoes handlers in developing countries will therefore prevent or reduce the problemof water loss in harvested tomatoes. However, maintainingexcessively high level of relative humidity inside the packagecan result in moisture condensation on the commodity,which will in turn create conducive environment favourablefor pathogenic activities thereby increasing the risk offruit deterioration [60]. Tomato handlers must therefore betrained in the proper use of MAP for tomatoes to avoid moisture condensation which will result in fruit deterioration.3.4. 1-Methylcyclopropene (1-MCP). The use of 1-methylcyclopropene (1-MCP) has been shown to suppress the actionof ethylene in many fruits and vegetables [68]. The rate5of ethylene production in harvested climacteric fruit liketomato is indicative of the metabolic activities within thefruit. The higher the metabolic activities within the harvestedfruit, the shorter its shelf life. However, the aim of everypostharvest technology is to slow down the metabolism inthe harvested produce thereby increasing shelf life. The useof 1-MCP by handlers in developing countries is thereforeessential in extending shelf life of harvested tomatoes. Theuse of 1-MCP has been shown to slow down many of themetabolic activities associated with the ripening process suchas colour change, cell wall breakdown, and respiration ratesmaking it a useful technique in extending storage life of fruits[69]. Although 1-MCP treatment preserves quality of fruitsat advanced ripened stage, its application in green fruit mayresult in nonuniform ripening [70, 71]. Storing green fruitsusing 1-MCP must therefore be done with caution in orderto achieve full ripeness [72]. In postharvest tomato treatmentin particular, 1-MCP has been shown to prolong the shelflife of fruits by retaining fruit firmness and delaying bothlycopene accumulation and external colour development[68]. Another benefit of using 1-MCP in tomatoes is theprevention of abscission in fruits that are sold on the vine[73]. This will have a desirable photosynthetic effect in thevegetative tissues which could lead to uninterrupted supplyof certain vital substances or nutrients to the fruit therebyincreasing the consumption quality. Educating and traininghandlers on how use 1-MCP in tomatoes will help reducesome amount of postharvest loss associated with the crop.3.5. Calcium Chloride (CaCl2 ) Application. Postharvest calcium chloride (CaCl2 ) application is receiving considerableattention in recent times due to its positive effects on shelf lifewhilst maintaining quality of many fruits and vegetables [74].It has been found that calcium chloride delays ripening andsenescence, reduces respiration, extends shelf life, maintainsfirmness, and reduces physiological disorders of many fruitsand vegetables [75, 76]. Lester and Grusak [77] also notedthat both pre- and postharvest calcium application delayedsenescence in many fruits without any negative effect onconsumer acceptability. For instance, a 1% CaCl2 treatmentwas found to have reduced fungal attack, slowed down fruitripening, and maintained structural integrity of cell wallsof strawberry [78], whilst the same application also delayedsoftening and increased storage life by almost 3 months inKiwi fruits stored at 0 C [79]. In loquat fruit, calcium chloride(CaCl2 ) dip extended shelf life by 4-5 weeks [76]. In tomatoes,calcium chloride treatment is vital for maintaining quality offruits by reducing the physiological disorders, increasing thefruit firmness, delaying ripening process, and prolonging theshelf life [80]. CaCl2 has been found to have delayed fruitcolour development in
harvest. From this study, it was revealed that the postharvest quality and shelf life of the fruit in part will depend on some postharvest handling practices and treatments carried out a er harvest. Handling
Small-scale Postharvest Handling Practices and Improved Technologies for Reducing Food Losses Lisa Kitinoja, The Postharvest Education Foundation November 2016 This is a free pdf e-learning manual of 12 self-managed assignments on easy to learn postharvest extension methods. Assignments
postharvest best handling practices and optimum postharvest conditions for different types of horticultural crops. LEARNING OBJECTIVES Upon completion of the course, students should have an appreciation for the factors related to quality deterioration and wastage of horticultural commodities after
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Small Scale Postharvest Handling Practices: A Manual for Horticultural Crops (5th edition). i Acknowledgments The development of the first edition of this manual was supported, in part, by USAID funds via USDA grant number 58319R-3-004, the National Agricultural Research Project, Ministry of Agriculture, Egypt.
and Vegetables in the Asia-Pacific Region APO 2006, ISBN: 92-833-7051-1 Reports of the APO seminar on Reduction of Postharvest Losses of Fruit and Vegetables held in India, 5-11 October 2004 and Marketing and Food Safety: Challenges in Postharvest Management of Agricultural/ Horticultural Products in Islamic Republic of Iran, 23-28 July 2005
control of postharvest losses of root and tuber crop produce was 2.858. Marketing extension services had significant effect on the volume of postharvest losses of root and tuber crop produce in the study area given that the F- statistics of 102.569 is significant at 1% level of significance and that computed F- value was higher than
1.4. Pre- and post- harvest factors influencing post-harvest quality Pre-harvest factors affecting postharvest quality Several factors before harvest affect quality of horticultural crops after harvest. Some of these factors are related to the plant, others are related to the environment or to cultural practices. Culti
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