Effect of potting media and mulching on nursery and early field performance of passion fruit seedlings at Makurdi, Nigeria

F. D. Ugese, A. Ogabo, I. Abubakar

Article ID: 3528
Vol 7, Issue 2, 2024

VIEWS - 1988 (Abstract) 1477 (PDF)

Abstract


Studies to evaluate the response of passion fruit seedlings in terms of emergence, nursery, and early field growth to growing media and mulching were carried out at the Teaching and Research Farm of Joseph Sarwuan Tarka University Makurdi between July and December 2018. Treatments consisted of five media, composted from readily available substrates. The five nursery media were; medium 1:1:2:3 (SB) composed of top soil + poultry manure + river sand; medium 2:1:2:3 (RHB) – rice hull + poultry manure + river sand; medium 3:2:3:1 (RHB) – rice hull + poultry manure + river sand; medium 4:1:4:3 (SDB) – sawdust + poultry manure + river sand and medium 5:1:2:3 (SDB) – sawdust + poultry manure + river sand. For the nursery experiment, treatments were the five potting media, while the field trial was a 5 × 2 factorial arrangement consisting of the five growing media and mulching status (mulch and no mulch). In both cases, treatments were laid out in randomized designs that were replicated three times. Results showed that there were no significant differences in all the emergence traits evaluated. However, medium M5 (sawdust based) showed superior performance in most of the seedling characters evaluated. Under field conditions, the sawdust based media (M4 and M5) gave the best growth of passion fruit seedlings compared to the other potting media. Application of mulch, however, did not elicit any significant response in plant growth. It is therefore conclusive that sawdust based growing media could be used to produce high quality passion fruit seedlings with the prospect of excellent performance under field conditions.


Keywords


potting media; emergence; mulching; seedling growth; passion fruit

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References


1. Agbo CU, Omaliko CM. Initiation and growth of shoots of Gongronema latifolia Benth stem cuttings in different rooting media. African Journal of Biotechnology 2006; 5(5): 425-428.

2. Aiyelaagbe IOO, Fagbayide JA, Makinde A. Effect of N Fertilization on the vegetative growth of passion fruit (Passiflora edulis f. flavicarpa) seedlings. Journal of Food, Agriculture & Environment 2005; 3(3&4): 62–64.

3. Alegbejo MD. Growing passion fruit in Northern Nigeria. Horticulture Magazine 2004; 2: 9.

4. Ani JU, Baiyeri KP. Impact of poultry manure and harvest season on juice quality of yellow passion fruit (Passiflora edulis var. flavicarpa Deg.) in the sub-humid zone of Nigeria. Fruits. 2008; 63: 239-247. doi: 10.1051/fruits:2008017

5. Anonymous. Fact Sheets: Passionfruit. Ministry of Agriculture, Forestry and Fisheries, St. Lucia 2010.

6. Araujo R, Bruckner CH, Martinez HEP, et al. Quality of yellow passion fruit (Passiflora edulis Sims F Var Flavicarpa Deg) as affected by potassium nutrition. Fruits. 2006; 61: 109-115.doi: 10.1051/fruits:2006009

7. Ayua C, Ugese FD, Ugoo TR. Effect of growth media and sarcotesta removal on nursey and early field performance of papaya (Carica papaya) seedlings. 38th Annual Conference of the Horticultural Society of Nigeria; 25-31 October 2020. pp. 378-383.

8. Baiyeri KP. Response of Musa species to macro-propagation: The effects of genotype, initiation and Weaning media on sucker growth and quality in the nursery. African Journal of Biotechnology 2005; 4: 229-234.

9. Baiyeri KP. Seedling emergence and growth of pawpaw (Carica papaya) grown under different coloured shade polyethylene. International Agrophysics 2006; 20: 77-84.

10. Baiyeri KP, Mbah BN. Effects of soilless and soil based nursery media on seedling emergence, growth and response to water stress of African breadfruit (Treculia africana Decne). African Journal of Biotechnology 2006; 5: 1405-1410.

11. Baiyeri KP, Ugese FD, Uchendu TO. The effects of previous fertilizer treatments on passion fruit seed quality, and seedling emergence and growth qualities in soilless media. Journal of Agricultural Technology. 2011; 7(5): 1397-1407.

12. Bayeiri KP, Ndubizu TOC. Evaluation of nursery media for seedling emergence and early seedling growth of tropical tree species. Moor Journal of Agricultural Research 1994; 4(1):60-66. doi: 10.4314/mjar.v4i1.31754

13. Bora PS, Narain N. Passion Fruit. In: Post Harvest Physiology and Storage of Tropical and Subtropical Fruits.CAB International, New York, U.S.A; 1997. pp. 375-386.

14. Dupriez H, De Leener P. African Gardens and Orchards: Growing Vegetables and Fruits. Macmillan Publishers Ltd; 1989. p. 333.

15. van Ee S. Fruit Growing in the Tropics, 2nd ed. Agrodok-series No.5. Agromisa Foundation; 1999.

16. Fakorede MAB, Ojo DK. Variability for Seedling Vigour in Maize. Experimental Agriculture. 1981; 17(2): 195-201. doi: 10.1017/s0014479700011455

17. de Oliveira Freire JL, Ferreira Cavalcante L, Matheus Rebequi A, et al. Quality of yellow passion fruit juice with cultivation using different organic sources and saline water. Idesia (Arica). 2014; 32(1): 79-87. doi: 10.4067/s0718-34292014000100009

18. Knight RJ, Sauls JW. The Passion Fruit: University of Florida. Cooperative Extension Service Fact Sheet 1994; Hs-60.

19. Lin Y, Watts DB, Way TR. Poultry Litter Placement Effects on Cotton Seedling Emergence and Early Growth. Agronomy Journal. 2017; 109(4): 1678-1686. doi: 10.2134/agronj2016.09.0541

20. Morton, JF. Passionfruit. Fruits of Warm Climates, Miami, Florida 1987; 320-328.

21. Nakasone NY, Paull RE. Tropical Fruits. CAB1 Publishing Company; 1999. pp. 275-291.

22. Ndukwe O, Ezeoke A, Orji C, et al. Seedling development and juvenile growth of two yellow passion fruit genotypes as influenced by poultry manure rates. Journal of Central European Agriculture. 2022; 23(4): 739-748. doi: 10.5513/jcea01/23.4.3590

23. Ndukwe OO, Nwachikere OC. Effect of nursery media on early seedling emergence and growth of two genotypes of passion fruits (Passiflora edulis). Journal of Horticulture and Forestry (In Press).

24. Sahin U, Ors S, Ercisli S, et al. Effect of pumice amendment on physical soil properties and strawberry plant growth. Journal of Central European Agriculture. 2005; 6(3): 361-366.

25. Silva LC, Sao Jose AR. Botanical classification of passion fruit trees (Portuguese). Deparnento de Fitotecnia e 200 tecnia e 200 tecnia Victoria da conquista Ba, Brazil; 1994.

26. Thokchom R, Mandal G. Production preference and importance of passion fruit (Passiflora edulis): A Review. Journal of Agricultural Engineering and Food Technology 2017; 4(1): 27-30.

27. Ugese F, Baiyeri K, Mbah B. Effect of Seed Source and Watering Intervals on Growth and Dry Matter Yield of Shea Butter Tree (Vitellaria paradoxa Gaertn F.) Seedlings. Bio-Research. 2008; 6(1). doi: 10.4314/br.v6i1.28653

28. Ugese FD. Effect of nursery media on emergence and growth of tamarind (Tamarindus indica L.) seedlings. Journal of Animal and Plant Sciences 2010; 8: 999-1005.

29. Ugese F, Baiyeri K, Mbah B. Effect of sowing depth and mulch application on emergence and growth of shea butter tree seedlings (Vitellaria Paradoxa C. F. Gaertn.). African Journal of Biotechnology. 2010; 9(10): 1443-1449. doi: 10.5897/ajb09.898




DOI: https://doi.org/10.24294/th.v7i2.3528

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