Economic Returns from Postharvest Cured Date Palm Cultivars under Glasshouse Conditions
Research Article
Economic Returns from Postharvest Cured Date Palm Cultivars under Glasshouse Conditions
Muhammad Mansoor1, Khalid Usman2*, Shahid Hameed Khan Khalil3, Abdul Mateen Khattak4, Muhammad Ehsan Elahi1, Muhammad Waqas Imam Malik2 and Amir Hamza2
1Arid Zone Research Center, Pakistan Agricultural Research Council, Dera Ismail Khan, Pakistan; 2Department of Agronomy, Faculty of Agriculture, Gomal University, Dera Ismail Khan, Pakistan; 3CEWRI, PARC-National Agricultural Research Center, Islamabad, Pakistan; 4Department of Horticulture, The University of Agriculture, Peshawar, Khyber Pakhtunkhwa, Pakistan.
Abstract | Traditional methods of open sun curing were used for postharvest processing of dates but, the desired quality of fruit could not be achieved due to adverse effects of dust storms and rain spells at ripening and curing stage of fruits. Covering fruit bunches with bags were also not productive and profitable; therefore, the growers switched to solar tunnel drying but couldn’t get the required results. The protocols of using solar tunnels needed fine-tuning of temperature and relative air humidity, which affect fruit quality. During dates’ drying process high temperature and low humidity is required. This research was conducted at Arid Zone Research Center, D.I. Khan, Pakistan for quick and safe ripening of date fruits under controlled conditions. For ripening of date fruits, 35 ± 5°C temperature and 80 ± 5% relative humidity; and for drying, 45 ± 50C temperature and 30 ± 5% relative humidity levels were kept constant. The moisture contents were reduced to recommended moisture of 23-25% for shelf life stability. Data for fresh date production ranged from 39-59% of the initial value. Minimum (39%) and maximum (59%) fresh date yields were recorded in cv. Gulistan and Shakri, respectively. Similarly, minimum and maximum produce recorded in dry dates were 32 and 50% in Gol Basara and Zahidi, respectively. Maximum and minimum length observed were 5.2 cm and 2.5 cm in Dhakki and Gol Basra, respectively. Economic analysis revealed that processing of fresh dates fetched more money than dry dates for most of the popular varieties. However, Dhakki date being more preferred due to its unique taste and the highest fruit yield and the biggest fruit size; needs curing under controlled conditions.
Received | March 22, 2019; Accepted | August 19, 2019; Published | October 28, 2019
*Correspondence | Khalid Usman, Department of Agronomy, Faculty of Agriculture, Gomal University, Dera Ismail Khan, Pakistan; Email: [email protected]
Citation | Mansoor, M., K. Usman, S.H.K. Khalil, A.M. Khattak, M.E. Elahi, M.W.I. Malik and A. Hamza. 2019. Economic returns from postharvest cured date palm cultivars under glasshouse conditions. Sarhad Journal of Agriculture, 35(4): 1039-1044.
DOI | http://dx.doi.org/10.17582/journal.sja/2019/35.4.1039.1044
Keywords | Date palm cultivars, Fresh dates, Dried dates, Postharvest, Economic analysis
Introduction
There are more than 150 varieties of date palm (Phoenix dactylifera L.) grown in Pakistan which includes Dhakki, Shakri, Zahidi, Baitullah, Muzalti, Gulistan, and Basra etc. (Nadeem et al., 2011) having unique tastes, textures and response of commune’s acceptability. These varieties are growing mostly in arid regions of the country; facing higher temperature, lower humidity, while needing abundant water for optimal growth. Two major provinces, Baluchistan and Sindh contribute about 85 and 90%, respectively to the total date’s production of the country. A few varieties are also produced in some parts of Punjab and Khyber Pakhtunkhwa adding up their share in total national production (524041 tons) (FAO, 2013).
The four ripening stages of dates are characterized as Kimri (immature green), Khalal (the mature full colored), Rutab (the soft brown), and Tamar (the hard raisin-like) (Chao and Krueger, 2007). Moisture contents of dates at Khalal, Rutab, and Tamar stage range from 45 – 65%, 30 – 45%, and less than 30%, respectively. At “Tamar” stage the sugar content is about 60 – 80%. At this stage the product is suitable for long term storage due to its improved shelf life. Most dates are harvested at “Rutab” stage, possessing fully-ripen soft stuff and showing light brown color (Al-Hooti et al., 1997)
Dates have become a valuable source of income for Pakistani farmers. However, there occur numerous physical changes and problems due to its natural ripening on palm trees. It may include blistering (detachment of the date flesh from pit) and different kinds of impurity sticking to the fruits causing increased microbial contaminations (Sakr et al., 2010). Processes such as washing, grading, cleaning, and packing are carried for further value addition and proper postharvest management of dates. Under such circumstances the dates are not available in fresh form and are converted into dry dates. Moreover, monsoon season is coinciding with the harvest season of the Dhakki dates due to recent climate change which adversely affects its availability in fresh form. High rainfall and humidity during later stages of fruit development limit the production of date palms, causes certain physiological disorders, and adversely affects the quality of fruit, as it leads to fruit cracking and checking (Yahia and Kader, 2011). Traditional practices of open sun drying were initially used for postharvest processing of dates. But, the desired quality of fruit could not be achieved due to adverse effects of climate change i.e. dust storms and rain spells; occurring especially at the ripening and curing stages of fruits. Later on the practice of covering fruit bunches with bitumen paper to protect it from monsoon rains was adopted but it was a slow process and the desired quality and quantity of fruit could not be attained. Consequently, the farming community switched to dry date processing because of limited opportunity for maintaining quality and quantity of fresh dates. Temperature and humidity are the two main factors affecting the fruit quality. At ripening stage, the fruit needs low temperature and high humidity, while; during drying it requires high temperature and low humidity. For safe ripening of comparatively soft date palm varieties 40–43◦C temperature is required (Hyde, 1948). For thick flesh varieties the temperature ranges of 45–46◦C and relative humidity 70% for a time of 2–4 days or more than that may be needed to get ripened. In all the previous research work carried out on solar tunnel drying, only one parameter i.e. temperature was considered (SBI, 2010). Also, there are many designs of the tunnel set to accommodate considerable quantities of dates (Abul-Soad et al., 2015). However, these studies were ended up with a special design that could accommodate a half of ton in a single cycle of 3 days and adjusted the way to handle unripe date within the tunnel (Abul-Soad, 2017). At ripening stage, the temperature inside the dryer was raised much enough and humidity was not taken in consideration, due to which the flesh got detached from the pit and the desired quality products were not achieved. Moreover, in case of world fame Jambo size date palm cv. Dhakki could not mature on plant and consequently its ripening is done at ground in open sun shine.
The objectives of the present research were, to compare fresh and dry dates production after postharvest curing in glasshouse and to compare economic returns coming from the fresh and dry dates after postharvest curing.
Keeping in view the concern of the growers about safe ripening of the date palms, a research study was carried out where controlled ripening was supposed to be a possible alternative to natural ripening. This will overcome the problems caused by long time exposure of date fruits to climatic atrocities while staying on the palm trees.
Materials and Methods
Eight different varieties of dates including Shakri, Zahidi, Baitullah, Muzalti, Gulistan, Shakri Yellow, Basra and Dhakki were processed to produce fresh dates in the glass house at Arid Zone Research Center, Dera Ismail Khan. These varieties were also processed in glass house to produce dry dates. Market survey was conducted to collect the rates for fresh and dry dates. The varieties under study were compared in terms of economic return accruing from their fresh and dry fruits.
The study was carried out at Arid Zone Research Center, Dera Ismail Khan for two years during 2017 and 2018.
Harvesting of dates
Date varieties (Shakri, Zahidi, Baitullah, Muzavti, Gulistan, Shakri Yellow, Basra and Dhakki) were harvested from selected plants of the orchard at Arid Zone Research Center, Dera Ismail Khan at Khalal stage for experimentation. Dera Ismail Khan is situated in the extreme south of Khyber Pakhtunkawa Province of Pakistan and lies in between 31º 49/ N latitude and 70º 55/ East longitude.
Pre-treatment
Harvested dates were collected in bunches, detached from bunches; through opposite side pushing for ensuring the caps attachment. The fruits were cleaned with water to remove dust and other inert material. Sorting was carried out to remove damaged and spoiled fruit (El Mardi et al., 2006).
Sample size
One kilogram sample of each variety was collected from the sorted fruits and replicated three times for processing both fresh date and dry dates in wooden trays. The samples collected for dry dates were immersed in boiling water for five minutes and were placed in perforated trays for processing. While samples meant for fresh date processing were placed on perforated trays after washing with clean water (Ahmad et al., 1995). Both samples were shifted to green glass house.
Glass house operation
The glass house (30 × 60 ft) installed at Arid Zone Research Center, D.I. Khan include ventilators, exhaust fans, blowers, cooling pad, misters and heating cables. For rising inside temperature, the entrance and ventilators were closed and all the running components were shut down. Similarly, for lowering inside temperature, the entrance and ventilators were opened to maintain humidity at required level; exhaust fans and blowers were switched on to blow out the trapped hot air. For increasing the inside humidity, entrance and ventilators were closed while the cooling pad and misters were switched on. In short the humidity and temperature were controlled and kept at constant levels i.e. for ripening of the dates 350C temperature and 80% relative humidity; and for drying 450C temperature and 30% relative humidity through respective processing period.
Weight loss of dates in postharvest curing were recorded by subtracting weight at curing from initial sample weight.
Drying
The moisture contents of date fruit were reduced to desired moisture content (23–25%). To keep the dates soft the moisture contents less than 20% were avoided (Kader, 2009). Moisture tester was used for the confirmation of moisture level.
Data collection
Data on total fruit yield (kg tree-1) were recorded for all the varieties. Data including temperature and humidity inside glass house (GH) and hardness of dates were recorded on daily basis through hardness tester. Both dry dates and fresh dates were re-weighed when attained 0.52 water activity levels and attaining full ripening respectively.
Statistical analysis
The data recorded were analyzed statistically using analysis of variance technique and subsequently Least Significant Difference test (LSD) was applied for comparing the treatment means, by MSTATC computer software using the procedure given by Steel et al. (1997).
Results and Discussion
Physical properties of dates
At Khalal stage, the shape, color and size of all collected samples were observed and presented in Table 1. On the basis of length, date fruits were categorized as small, medium and large sizes; as compared to each other. The ranges of fruit size were set as small fruit < 4.0 cm, for medium fruit 4.0–5.0 cm and large fruit >5.0 cm (Markhand et al., 2010). Overall quality of the dates regarding physical appearance revealed that Dhakki variety was the most attractive and superior variety among all other varieties.
Fruit yield and weight loss of dates in postharvest curing
Fruit yield and weight loss of different varieties of dates in postharvest curing is given in Table 2. Dhakki date had the highest fruit yield (135 kg tree-1) among all other varieties. The average weight loss compared to initial samples; in “Shakri” was 41% for fresh dates, while; it was 56% for producing dry dates. The average weight loss in “Zahidi” was 50% for fresh dates, while; it was 50% for producing dry dates. The average weight loss in “Baitullah” was 51% in case of
Table 1: Physical properties of different varieties of dates at maturity.
S. No. |
Variety |
Color |
Shape |
Length (cm) |
Category |
1 |
Shakri |
Medium Brown |
Oval |
3 |
Small |
2 |
Zahidi |
Golden Yellow |
Oval |
3.5 |
Small |
3 |
Baitullah |
Golden Brown |
Cylindrical |
3 |
Small |
4 |
Muzawti |
Black |
Thick Oval |
2.5-4.5 |
Small to Medium |
5 |
Gulistan |
Light Brown |
Oval |
4.5 |
Medium |
6 |
Shakri Yellow |
Yellowish Brown |
Oval |
3 |
Small |
7 |
Gol Basra |
Yellow |
Oval |
2.5 |
Small |
8 |
Dhakki |
Light Brown |
Oblong Oval |
5.2 |
Large |
Table 2: Fruit yield and weight loss of different varieties of dates in postharvest curing.
Variety |
Fruit yield (kg tree-1) |
Fresh dates |
Weight loss (%) |
Dry dates |
Weight loss (%) |
||||
weight (kg) |
weight (kg) |
||||||||
Initial |
Final |
Difference |
Initial |
Final |
Difference |
||||
Shakri |
115 |
1 |
0.59 a |
0.41 f |
41 f |
1 |
0.44 c |
0.56 d |
56 d |
Zahidi |
95 |
1 |
0.50 b |
0.50 e |
50 e |
1 |
0.50 a |
0.50 f |
50 f |
Baitullah |
100 |
1 |
0.49 c |
0.51 d |
51 d |
1 |
0.40 d |
0.60 c |
60 c |
Muzawati |
85 |
1 |
0.49 c |
0.51 d |
51 d |
1 |
0.48 b |
0.52 e |
52 e |
Gulistan |
125 |
1 |
0.39 f |
0.61 a |
61 a |
1 |
0.48 b |
0.52 e |
52 e |
Shakri Yellow |
130 |
1 |
0.48 d |
0.52 c |
52 c |
1 |
0.40 d |
0.60 c |
60 c |
Basra |
120 |
1 |
0.43 e |
0.57 b |
57 b |
1 |
0.32 f |
0.68 a |
68 a |
Dhakki |
135 |
1 |
0.50 b |
0.50 e |
50 e |
1 |
0.36 e |
0.64 b |
64 b |
fresh dates, while; it was 60% for producing dry dates. The average weight loss in “Muzawti” was 51% in case of fresh dates, while; it was 52% for producing dry dates. The average weight loss in “Gulistan” was 61% in case of fresh dates, while; it was 52% for producing dry dates. The average weight loss in “Shakri Yellow” was 52% in case of fresh dates, while; it was 60% for producing dry dates. The average weight loss in “Basra” was 57% in case of fresh dates, while; it was 68% for producing dry dates. The average weight loss in “Dhakki” was 50% in case of fresh dates, while; it was 64% for producing dry dates. The average minimum weight loss of 41% occurred in fresh dates produced from Shakri variety and average maximum weight loss of 61% occurred in fresh dates produced from Gulistan variety. Similarly, the average minimum weight loss of 50% and average maximum weight loss of 68% occurred in dry dates produced from Shakri variety.
Dry dates produced from “Baitullah” variety were of better quality than fresh dates produced from this variety. The fresh dates of “Baitullah” variety became bone dry, its flesh got detached from the pit and its skin got ruptured. “Dhakki” variety on the other hand produced both good quality fresh as well as dry dates. The fresh dates produced were good in color and taste. The produce was also fleshy and large in size as compared to the other seven varieties. The maximum and minimum size observed among varieties under study was 5.2 cm and 2.5 cm in case of Dhakki and Basra varieties, respectively. A cultivar, Deglet Nour could not be processed for ripening at temperature higher than 35◦C in order to avoid fruit darkening and disflavoring (Morton, 1987). However, some soft cultivars like Zahidi, Halawi and Dayri could be ripened at comparatively increased temperatures like 35–38◦C.
Comparative economics of fresh dates vs. dry dates after postharvest curing
It is depicted from Table 3 that market rates of fresh dates of almost all varieties were greater than the dry dates except Gulistan wherein due to comparatively high water activity level fresh form was much perishable. This variety was converted into dry dates to reduce the moisture content for safe storage and, hence, was not available in fresh form. Moreover, it is more fleshy and soft to maintain its shape during processing and packaging. Though the fresh dates production
Table 3: Comparative economics of the different varieties after postharvest curing.
Variety |
Fresh dates |
Dry dates |
Fresh dates |
||||
Weight obtained after processing (kg) |
Market rate (Rs/kg) |
Cost (Rs) |
Weight obtained after processing (%age of the initial sample) |
Market Rate (Rs) |
Cost (Rs) |
Comparatively more monetary return (%) |
|
Shakri |
59% |
100 |
59 |
44% |
120 |
53 |
10 |
Zahidi |
50% |
150 |
75 |
50% |
90 |
45 |
40 |
Baitullah |
49% |
100 |
49 |
40% |
85 |
34 |
31 |
Muzafati |
49% |
120 |
59 |
48% |
100 |
48 |
19 |
Gulistan |
39% |
100 |
39 |
48% |
150 |
72 |
Fresh date preparation not possible |
Shakri Yellow |
48% |
120 |
58 |
40% |
100 |
40 |
31 |
Gol Basra |
43% |
75 |
32 |
32% |
100 |
32 |
Equal return |
Dhakki |
50% |
300 |
150 |
36% |
250 |
90 |
40 |
from unit mass of Dhoka was varying from 39 to 59%, however, in Toto it was observed that dates processed for fresh dates production were more economical than the dry dates production. Dhakki and Zahidi varieties in their fresh form had the highest economic return when compared with their dry dates. However, harvesting of these improved varieties coincide with the monsoon rains due to recent change in the climatic conditions for the last few years which may affect the fruit quality as well as the final yield (Abul-Soad et al., 2015; Yahia and Kader, 2011). Curing in glass house condition may thwart the threat from monsoon rains . Thus curing of dates in glass house conditions may be the possible alternative to avoid adverse effect of weather on fruit yield and quality.
Benefit cost ratio (BCR)
Data on benefit cost ratio revealed that fresh dates were more beneficial than dry dates on the basis of higher BCE value (Table 4). It is evident from the table 4 that fresh dates gave double return as compared to dry dates.
Table 4: Benefit cost ratio for fresh and dry dates (Chuhara).
Description |
Cost (Rs. kg-1) |
Benefit (Rs. kg-1) |
BCR |
Fresh Dates |
70 |
200 |
2.8 |
Dry Dates |
118 |
125 |
1.1 |
Conclusions and Recommendations
Dhakki date fetched highest market rate among all other varieties. Dhakki and Zahidi both varieties had higher economic return (40%) in fresh form than their dry form. Shakri Yellow and Baitullah were the other two varieties that produced 31% more monetary gain in fresh form than the dry form. All other varieties should also be processed in fresh form for comparative advantage over the dry form. Dhaki date is much preferred due to its unique taste and the highest fruit yield and fruit size; however, monsoon rains at harvesting stage can damage the quality. Thus curing of dates under glasshouse condition is the possible solution in order to maintain yield and quality of the dates.
Novelty Statement
Quality of date cannot be achieved from postharvest processing of dates in an open environment due to adverse climatic conditions. The date needs curing under controlled conditions for keeping the quality.
Author’s Contributions
All authors contributed to the present research equally.
References
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