Field Performance of Eight Commercial Date Palm Cultivars of Balochistan Grown under Agro-Climatic Conditions of District Khairpur, Pakistan

Najamuddin Solangi; Nazir Ahmed Soomro; Mushtaque Ahmed Jatoi; Ghulam Sarwar Channa; Abdul Aziz Mirani; Adel Ahmed Abul-Soad; Ghulam Sarwar Markhand

doi:10.53560/PPASB(62-1)1079

Authors

Najamuddin Solangi Date Palm Research Institute, Shah Abdul Latif University, Khairpur, Pakistan
Nazir Ahmed Soomro Date Palm Research Institute, Shah Abdul Latif University, Khairpur, Pakistan
Mushtaque Ahmed Jatoi Date Palm Research Institute, Shah Abdul Latif University, Khairpur, Pakistan
Ghulam Sarwar Channa Department of Botany, Shah Abdul Latif University, Khairpur, Pakistan
Abdul Aziz Mirani Date Palm Research Institute, Shah Abdul Latif University, Khairpur, Pakistan
Adel Ahmed Abul-Soad Horticulture Research Institute, Agricultural Research Center, Giza, Egypt
Ghulam Sarwar Markhand Date Palm Research Institute, Shah Abdul Latif University, Khairpur, Pakistan

DOI:

https://doi.org/10.53560/PPASB(62-1)1079

Keywords:

Cultivars, Orchard, Kimri, Pinnae, Spine, Muzawati, Climate, Cultivation

Abstract

Field performance of eight commercial date palm cultivars of Balochistan was carried out under agro-climatic conditions of district Khairpur, Pakistan. Five years old offshoots of different date palm cultivars brought from Turbat and Panjgoor, Balochistan, and were cultivated in the Research Orchard of Date Palm Research Institute, Shah Abdul Latif University, Khairpur. In this study, vegetative, flowering, bunch and fruit physical characteristics were studied after ten years of plantation in the field. Fruits of different cultivars were collected at three distinct fruit growth stages (kimri, khalal and rutab) for morphological characterization (fruit colour, fruit length, fruit diameter, fruit weight, seed length, seed diameter, seed weight). Results of vegetative characteristics revealed that higher leaf/frond length (187.3 cm), pinnae number (208.6) and spine number (26.6) was observed in cv. Begum Jangi. Flowering characteristics showed that highest number of spathes (14.3) and number of strings per spathe (88.6) were noted in cv. Begum Jangi. Highest bunch length (44.6 cm) and bunch weight (15.4 kg) was observed in cv. Muzawati. Highest fruit length (4.3 cm, 5.3 cm and 5.6 cm) was recorded in cv. Aab-e-dandan at kimri, khalal and rutab stages respectively. Highest fruit weight (22.5 g) was observed in cv. Muzawati at kimri stage, 23.3 g in cv. Shakri at khalal stage and 24.0 g in cv. Muzawati at rutab stage. Highest seed length (2.41 cm) was noted in cv. Gogna at kimri stage, 2.97 cm at khalal and 3.0 cm at rutab stages were observed in cv. Aab-e-dandan. Higher pulp/fruit ratio (PFR) (94.6%) was observed in cv. Muzawati at khalal stage, whereas at rutab stage higher pulp/fruit ratio (94.4%) was recorded in cv. Halini at edible rutab stage. Findings of the current study revealed that soil and climate of district Khairpur were suitable for the cultivation of exotic commercial date palm cultivars in the area.

References

1. A.A. Abul-Soad, S.M. Jain, and M.A. Jatoi. Biodiversity and conservation of date palm. In: Biodiversity and Conservation of Woody Plants. M.R. Ahuja and S.M. Jain (Eds.). Springer, Cham pp. 313-353 (2017).

2. N. Solangi, M.A. Jatoi, G.S. Markhand, A.A. Abul-Soad, M.A. Solangi, T. Jatt, A.A. Mirbahar, and A.A. Mirani. Optimizing tissue culture protocol for in vitro shoot and root development and acclimatization of date palm (Phoenix dactylifera L.) plantlets. Erwerbs-Obstbau 64(1): 97-106 (2022).

3. M.A. Jatoi, Z. Markhand, and N. Solangi. Dates in Sindh: Facts and figures. Proceedings of international dates seminar (28 July 2009), Shah Abdul Latif University, Khairpur, Pakistan (2009).

4. G.S. Markhand, A.A. Abul-Soad, A.A. Mirbahar, and N.A. Kanhar. Fruit characterization of Pakistani dates. Pakistan Journal of Botany 42(6): 3715–3722 (2010).

5. N. Solangi, M.A. Jatoi, A.A. Abul-Soad, A.A. Mirani, M.A. Solangi, and G.S. Markhand. Factors influencing somatic embryogenesis and plantlet regeneration of date palm using immature floral buds. Sarhad Journal of Agriculture 39(2): 323-331 (2023).

6. A.M. Khushk, A. Memon, and K.H. Aujla. Marketing Channels and margins of dates in Sindh. Pakistan Journal of Agricultural Research 47(3): 293-308 (2009).

7. M.I. Asif, O.A. Al-Tahir, and M.S. Al-Kahtani. Inter-Regional and Inter-Variety variations in dates grown in the Kingdom of Saudi Arabia. Proceedings of the First Symposium on the Date Palm, 23-25 March, 1982, King Faisal University, Al-Hassa, Saudi Arabia (1982).

8. A.A.A. Gasim. Changes in sugar quality and mineral elements during fruit development in five date palm varieties in Al-Madinah Al-Munawwarah. Journal of King Abdulaziz University: Science 6: 29-36 (1994).

9. N.R. Godara, R.K. Godara, and S.K. Bhatia. Evaluation of some exotic date palm cultivars for bunch and fruit characteristics at "Khalal" stage grown under North Indian Conditions. Haryana Agricultural University Journal of Research 24(1): 49-54 (1994).

10. J.O. Odewale, C.D. Ataga, G. Odiowaya, A. Hamza, A. Collins, and M.N. Okoye. Multivariate analysis as a tool in the assessment of physical properties of fruits (Phoenix dactylifera L.) in Nigeria. Plant Sciences Feed 2: 138-146 (2012).

11. S.M. Osman. Fruit quality and general evaluation of Zaghloul and Samany date palms cultivars grown under conditions of Aswan. American-Eurasian Journal of Agricultural & Environmental Sciences 4(2): 230-236 (2008).

12. A. Mansouri, G. Embarek, E. Kokkalou, and P. Kefalas. Phenolic profile and antioxidant activity of the Algerian ripe date palm fruit (Phoenix dactylifera L.). Food Chemistry 89(3): 411-420 (2005).

13. A.S. Hussein, G.A. Alhadrami, and Y.H. Khalil. The use of dates and date pits in broiler starter and finisher diets. Bioresource Technology 66(3): 219-223 (1998).

14. PK. Vayalil. Date fruits (Phoenix dactylifera L.): an emerging medicinal food. Critical Reviews in Food Science and Nutrition 52(3): 249-271 (2012).

15. C. Selmani, D. Chabane, and N. Bouguedoura. Ethnobotanical survey of Phoenix dactylifera L. pollen used for the treatment of infertility problems in Algerian oases. African Journal of Traditional, Complementary and Alternative Medicine 14(3): 175-186 (2017).

16. S. Ghnimi, S. Umer, A. Karim, and A. Kamal-Eldin. Date fruit (Phoenix dactylifera L.): an underutilized food seeking industrial valorization. NFS Journal 6(3): 1-10 (2017).

17. N. Solangi, M.A. Jatoi, N. Tunio, A.A. Mirani, A.A. Abul-Soad, and G.S. Markhand. Fruit Morphological and Biochemical Characterization of Three Saudi Arabian Date Palm (Phoenix dactylifera L.) Cultivars Grown in District Khairpur, Pakistan. Proceedings of the Pakistan Academy of Sciences: B Life and Environmental Sciences 61(1): 11-20 (2024).

18. S. El-Agamy, Z. Talaat, E. El-Mahdi, and O.A. Khalil. A Comparative Study of the Performance of Soft Type Date Grown in Arid Environment. Second International Conference on Date Palms 25-27 March 2001, Al-Ain, UAE (2001).

19. V.K. Vij, S.K. Thatai, and P.K. Monga. Evaluation of Date Palm Cultivars in Arid Irrigated Region of Punjab. Proceedings: International Conference on Mango and Date Palm: Culture and Export, 20-23 June 2005, University of Agriculture, Faisalabad, Pakistan (2005).

20. El-Sharabasy and F. Sherif. A Comparative Characterization of Some Dry Date Palm (Phoenix dactylifera L.) Cultivars Propagated by Offshoot and Tissue Culture Techniques in Aswan. Fourth Symposium on Date Palm, 5-8 May 2007, King Faisal University, Alasha, Saudi Arabia (2007).

21. H.A.A. Metwaly, Z.A.M. Abou-Rekab, A.A. Abd El-Baky, and A.A. El-Bana. Evaluation of Some Seeded Date Palm Trees Grown in Fayoum Governorate B. Chemical Characteristics. 4th Conference on Recent Technologies in Agriculture (January 1, 2009) Egypt (2009).

22. N. Solangi, A.A. Mirani, M.A. Jatoi, A.A. Abul-Soad, L.B. Bhanbhro, G.S. Markhand, M. Hedayat, and G. Abdi. Field evaluation of tissue culture-derived and offshoot-grown date palm cultivars: a comparative analysis of vegetative and fruit attributes. Frontiers in Plant Science 16: 1-11 (2025).

23. Ahmed, F. Faissal, A.M. Mohammad, A.G. Ali, and A.A. Abd El-Kafy. Evaluation of Some Dry Date Plam Varieties Propagated Through Seed and Tissue Culture Technique under Aswan Region Climatic Conditions. Stem Cell 4(3): 14-24 (2013).

24. A.A. Abul-Soad, M.A. Jatoi, and G.S. Markhand. Performance of three audi Arabian date palm varieties under the agro-climatic conditions of Khairpur. Pakistan Journal of Agricultural Sciences 50(4): 571-576 (2013).

25. M. Ayub, S. Saeed, and A. Ahmed. Morphological characterization of nine date palm varieties (Phoenix dactylifera L.) of Panjgur, Balochistan, Pakistan. Pure and Applied Biology 12(1): 252-260 (2023).

26. A.A. Mirani. Evaluating genetic stability of micropropagated date palm (Phoenix dactylifera L.) varieties using inflorescence. Ph.D. Thesis. Shah Abdul Latif University, Khairpur, Pakistan (2019).

27. R.G.D. Steel, J.H. Torrie, and D.A. Dickey (Eds.). Principles and Procedures of Statistics: A Biometrical Approach. WCB/McGraw-Hill, USA (1997).

28. A.M. El-Alwani and S.S. El-Ammari. Tree Morphological Properties of Date Palm Cultivars Grown in Three Libyan Oases. Second International Conference on Date Palms, 25-27 March 2000, Al-Ain, UAE (2000).

29. Y. Mostafa-Laila. Seasonal Fluctuation of Physical Characteristics and Chemical Constituents in the Pinnae, Fruits and Pits of Some Egyptian Date Palm Cultivars. M.Sc. Thesis. Faculty of Agriculture Alexandria University, Egypt (2000).

30. M. Shaker, S.A. Bekheat, H.S. Taha, A.S. Fahmy, and H.A. Moursy. Detection of somaclonal variations in tissue culture- derived date palm plants using isozyme analysis RAPD finger prints. Biologia Plantarum 43(3): 347-351 (2000).

31. R.S. Al-Obeed and A.O. Abdelaal-Rahman. Compatibility relationship within and between ten date palm cultivars (Phoenix dectylifera L.). Fruit set and yield. Journal of the Advances in Agricultural Researches 7(94): 809-820 (2002).

32. M.K. Azeqour and M. Baaziz. Morphological variation and isozyme polymorphism of date palm clones from in vitro culture acclimatized and established on soil in South Morocco. Euphytica 123(1): 57– 66 (2002).

33. A.M.A. El-Kady. Some physiological studies on fruiting of Haiany and Halawy date cultivars under Assiut conditions. M.Sc. Thesis. Faculty of Agriculture Assiut University, Egypt (2004).

34. A.M. El-Salhy, A.A. Kamelia, and E.F. Badawy. Physiological studies on fruit development of some date cultivars under Assiut conditions. Workshop on Agricultural Development in the Arab Nation "Obstacles and solution", 20-22 January 2004, Assiut University, Egypt (2004).

35. M.M. Oraby-Mona. Evaluation of some dry date palm varieties propagated through tissue culture under Aswan climatic conditions. Ph.D. Thesis. Faculty of Agriculture, Minia University, Egypt (2006).

36. A.A. Alkhateeb. The problems facing the use of tissue culture technique in date palm (Phoenix dectylifera L.). Scientific Journal of King Faisal University: Basic and Applied Sciences 9(2): 84-104 (2008).

37. A. Hasnaoui, M.A. Elboumaizi, A. Hakkou, B. Wathelet, and M. Sindic. Physico- chemical characterization classification and quality evaluation of date palm fruits of some Moroccan cultivars. Journal of Scientific Research 3(1): 139-149 (2011).

38. A. Aslam, S.K. Leghari, M. Asrar, S. Saeed, M. Shafi, M.F. Siddiqi, M.A. Sumalani, F. Maham, and A.A. Merri. Physico-chemical diversity and microbial burden in four dates palm (Phoenix dactylifera L.) fruit varieties grown in agro-climatic condition of Turbat, Balochistan, Pakistan. Applied Ecology and Environmental Research 17(3): 6625-6642 (2019).

39. M.K. Jahromi, A. Jafari, A. Keyhani, R. Mirasheh, and S.S Mohtasebi. Some physical properties of date fruit (cv. Dairi). Agricultural Engineering International: CIGR e-journal 22(3): 221-224 (2008).

40. S.S. Soliman, R.S. Al-Obeed, and A.M. Al-Saif. Multivariate analysis as a tool in the assessment of thinning of Segae date palm cultivar (Phoenix dactylifera L.). Pakistan Journal of Botany 47(5): 2023-2029 (2015).

41. M.A. Bacha, T.A. Nasr, and M.A. Shaheen. Changes in Physical and Chemical Characteristics of the Fruits of Four Date Palm Cultivars. Proceedings of Saudi Biological Society 10: 285-295 (1987).

42. R. Al Udhaib. Solvent extraction of antioxidants, phenols and flavonoids from Saudi Arabia dates. Master of Applied Science, Thesis. Dalhousie University Halifax, Nova Scotia (2015).

43. A.G. Tafti and M.H. Fooladi. A study on the Physico-Chemical Properties of Iranian Shamsaei date at different stages of maturity. World Journal of Dairy and Food Sciences 1(1): 28-32 (2006).

44. N.A. Abdul-Hamid, N.H. Mustaffer, M. Maulidiani, A. Mediani, I.S. Ismail, C.L. Tham, K. Shadid, and F. Abas. Quality evaluation of the physical properties, phytochemicals, biological activities and proximate analysis of nine Saudi date palm fruit varieties. Journal of the Saudi Society of Agricultural Sciences 19(2): 151-160 (2020).

45. R. Khodabakhshian and M. Khojastehpour. Characteristics changes of date fruits during ripening period on palm. Agricultural Engineering International CIGR Journal 23(4): 243-255 (2021).

46. I. Samarawira. Date Palm, Potential Source for Refined Sugar. Economic Botany 37(2): 181-186 (1983).

47. W. Al-Shahib and R. Marshall. The Fruit of the Date Palm: its Possible Use as the Best Food for the Future. International Journal of Food Sciences and Nutrition 54(4): 247-259 (2003).

48. F.M. Al-Jasass, M. Siddiq, and D.S. Sogi. Antioxidants activity and color evaluation of date fruit of selected cultivars commercially available in the United States. Advances in Chemistry 2015(5): 567203 (2015).

49. F. Biglari, A.F.M. AlKarkhi and A.M. Easa. Antioxidant activity and phenolic content of various date palm (Phoenix dactylifera L.) fruits from Iran. Food Chemistry 107(4): 1636-1641 (2008).

50. M. Al-Farsi, C. Alasalvar, A. Morris, M. Baron, and F. Shaihdi. Comparison of antioxidant activity, anthocyanins, carotenods and phenolics of three native fresh and sun-dried date (Phoenix dactylifera L.) varieties grown in Oman. Journal of Agricultural and Food Chemistry 53(19): 7592-7599 (2005).

51. M.S. Haider, I.A. Khan, M.J. Jaskani, S.A. Naqvi, S. Mateen, U. Shahzad, and H. Abbas. Pomological and biochemical profiling of date fruits (Phoenix dactylifera L.) during different fruit maturation phases. Pakistan Journal of Botany 50(3): 1069-1076 (2018).

52. F. Guido, S.E. Behija, I. Manel, Z. Nesrine, F. Ali, H. Mohamed, H.A. Noureddine, and A. Lotfi. Chemical and aroma volatile compositions of date palm (Phoenix dactylifera L.) fruits at three maturation stages. Food Chemistry 127(4): 1744-1754 (2011).

53. S. Rastegar, M. Rahemi, A. Baghizadeh, and M. Gholami. Enzyme activity and biochemical changes of three date palm cultivars with different softening pattern during ripening. Food Chemistry 134(3): 1279-1286 (2012).

54. R. Ahmed, H.M. Ali, A. Lisek, W.F.A. Mosa, S. Ercisli, and M.A. Anjum. Correlation among some phenological and biochemical traits in date palm (Phoenix dactylifera L.) germplasm. Frontiers in Plant Science 14: 1-13 (2023).

55. M. Iqbal, Imranullah, M. Munir, and M. Naimatullah. Physio-chemical characteristics of date palm (Phoenix dactylifera L.) cultivars at various maturity stages under environmental conditions of Dera Ismail Khan. Journal of Agricultural Research 49(2): 249-261 (2011).