Planting Density and Dose of Nitrogen and Potassium as Influencing Pod Characters of Snap Bean (Phaseolus vulgaris L.)

Yazarlar

DOI:

https://doi.org/10.24925/turjaf.v11i4.634-638.5324

Anahtar Kelimeler:

Density Nutrient- Bean Djadida- Pod Characters.

Özet

The objective of this study is to investigate the planting density, nitrogen and potassium influencing on the pod characteristics of bean. The experiment is made in a Split Randomized Complete Block Design, replicated three times. Two plant densities and seven doses of nitrogen and potassium fertilizers were examined. The results reflected that density had no effect on pod attributes, except pod length in the second season, whereas significantly increased by the lower density. The plant received lower nitrogen lacking potassium increased length in the both seasons however, the higher individual potassium dose and control increased length in first and second seasons, respectively. The widest and narrowest pod diameters shown by the lower dose of nitrogen and higher dose of both fertilizers, subsequently. The separately maximum and minimum dose of potassium in the first and second season subsequently, in addition to the individual lower dose of nitrogen in the second season have a heaviest dry weight. The interaction significantly affected overall parameters, except pod diameter and dry matter in the first season. Pod dry matter is commonly constant, except with the higher density received the greatest dose of both fertilizers, whereas record significant decline. Pod length and diameter are good indicator of quality, it can be given by the lower density and lower dose of nitrogen without potassium. The combination between lower density with higher potassium dose or neutral dose of both fertilizers is a preferable for length while, the higher density with both doses of potassium or with lower nitrogen, is an appropriate for diameter. The best treatment for both, dry weight and dry matter are wobbly.

Referanslar

Abubaker S. 2008. Effect of plant density on flowering date, yield and quality attribute of Bush beans (Phaseolus Vulgaris L.) under Center Pivot Irrigation System. American Journal of Agricultureand Biological Sciences,V. 3, No. 4, 666-668.

Aguiar J, Laemmlen F, Baameur A, Mayberry K. 1998. Snap bean production in California. Vegetable research and information center, vegetable production series. University of California, division of agriculture and natural resources. Publication, 7240.

Aliyu BS.2007. Evaluation of the effect of intra- and inter-row mixing of pearl crop yield in Striga hermonthica (Del) Benth infested field infested. International Journal of Pakinstan Agricultural Science,V.1, 1- 4.

Amissah AA, Jagtap SS, Dashiell KE. 1999. Plant density effects on growth and yield of tropical Soybean. Tropical Sciences, V.39, 162-167.

Anonymous RS. 2000. Research report on vegetable Improvement for 1999-2000. Olericulture Division, HRC, BARI, Joydebpur, Gazipur, 38-39.

Ayub MA, Muhammad T, NadeemMA, Zubair MA, Tariq M. and Ibrahim M. 2010.Effect of Nitrogen Applications on Growth, Forage Yield and Quality of Three Cluster Bean Varieties. Pakistan journal of life Society Sciences, V. 8, No. 2, 111-116.

Basnet DB, Komal BB, Prakash A. 2022. Influence of Nitrogen Level on Growth Pattern and Yield Performance of French Bean (Phaseolus vulgaris L.) in Nepal. Int. J. Appl. Sci. Biotechnol. 10(1): 31-40. DOI: 10.3126/ijasbt.v10i1.44157

Beg MZ, Sohrab A. 2012. Effect of potassium on Moong Bean. Indien Journal L. Sciences, V. 1, No. 2,109-114.

Cantwell M, and Suslow T. 1998. Bean, snap: recommendations for maintaining postharvest quality. Davis. http://postharvest.ucdavis.edu/pfvegetable/BeanSnap/ (accessed 2014).

CIAT. 2006. Highlights CIAT in Africa: Snap bean for income generation by small farmers in East Africa. No. 31. http://ciat-library.ciat.cgiar.org/articulos_ciat/highlight31. (Accessed 20, Dec. 2011).

Dahatonde BN, Nalamwar RV. 1996. Effect of nitrogen and irrigation levels on yield and water use of French bean (Phaseolus vulgaris L.). Indian Journal of Agronomy, V. 41, No. 2, 265-268.

Dhanjal R, Prakash O, Ahlawat IPS. 2001. Response of French bean (Phaseolus vulgaris L.) variety to plant density and nitrogen application. Indian Journal of Agronomy,V. 46,277-281.

Elhag AZ, Hussein AM. 2014. Effects of Sowing Date and Plant Population on Snap Bean (Phaseolus vulgaris L.) Growth and Pod Yield in Khartoum State. Universal Journal of Agriculture Research, V. 2, No. 3,115-118.

Ellal G, Bryan HH, McMillian RT. 1982. Influence of plant spacing on snap bean yield and disease incidence. Proc. Fla. State Hort Soc, V. 95, 325-328.

Essubalew G, Abush T, Tewodros M. 2014. The effects of sowing date and spacing for yield of green bean (Phaseolus vulgaris L.) varieties at Jimma, Southwestern Ethiopia. Sky Journal of Agricultural Research, V. 3, No. 9, 174-180.

Fanaei HR, Galavi M, Kafi A, Ghanbari BA, Shirani AH. 2011. Effects of drought stress and potassium on solutes accumulation and chlorophyll of Canola (B. napus) and Indian Mustard (B. juncea L.). Journal of Science and Technology of Agric and Natural Resources, V. 15, No. 57, 141-156.

Herath HME, Wahab MNJ. 1972. Effect of nitrogen and plant populations on growth and yield of bush Snap beans (Phaseolus vulgarisL.) var Cherokee wax. Division of horticulture. Central agricultural research institute Peradeniya.

Hussien MB. 2015. Improving snap bean (Phaseolus vulgarus) production under reduced input systems. PH. D thesis. University of Saskatchewan. Department of Plant Sciences. 51, Campus drive Saskatoon, SK S7N 5A8. Canada.

Jamadagni BM, Birari SP. 1994. Yield response of cowpea to varying levels of potassium and phosphorus on lateritic soil of Konkan region. J. Potassium Res, V. 10,192-195.

Kamanu JK, Chemining GN, Nderitu JH, Ambuko J. 2012. Growth, yield and quality response of snap bean (Phaseolus vulgaris L.) plants to different inorganic fertilizers applications in central Kenya. Journal of Applied Biosciences, V. 55, 3944-3952.

Kanaujia SP, Raj N, Sumati N. 1999. Effect of phosphorus and potassium on growth, yield and quality of French bean (Phaseolus vulgaris L.) cv. Contender. Vegetable Science, V. 26, 91-92.

Kanaujia SP, Sharma SK, Rastogi KB. 1998. Effect of phosphorus, potassium and Rhizobium inoculation on growth and yield of pea (Pisumsativum L.). Annual Agriculture Research, V.19, 219-221.

Kanaujia SP, Rastogi, KB, Sharma SK. 1997.Effect of phosphorus, potassium and Rhizobium inoculation on growth, yield and quality of pea cv. Lincoln. Vegetable Sciences, V. 24, 91-94.

Mahdi AHA. 2016. Response of Egyptian cotton to mepiquat chloride application under different plant spacings. Egypt J. Agron. 38, 99–116.

Moniruzzaman M, Halim GMA, Firoz ZA. 2009. Performances of French bean as influenced by plant density and nitrogen application. Bangladesh Journal of Agriculture Research, V. 34, No. 1,105-111.

Myers, JR, Baggett JR. 1999. Improvement of snap bean. In: Singh, S.P. (ed.), Common bean improvement in the twenty-first century: development in plant breeding. Springer, 289-329.

Nadeem A, Muhammad A, Muhammad AA. 2003. Growth and yield response of Pea (Pisum sativu L.) crop to phosphorus and potassium application. Pakistan Journal of Agriculture Sciences,V. 40, 3-4.

Peter JS, Bonita JW. 1985. Within-row spacing and cultivar effects on Celery yields for processing and fresh market. Proc. Fla. State Hort. Soc, 98, 292-294.

Saedy KFM. Jamil U., Harun OR, and Mohammad H. 2020. Effect of phosphorus and potassium on the growth and yield of French bean. J. Scien. Agric. 4: 0108-0112 doi: 10.25081/jsa.2020.v4.6428. http://updatepublishing.com/journal/index.php/jsa

Stoffella PJ, Bryan HH, McMillian RT, Martin FG. 1981. Black bean production potential in south Florida. Proc. Fla. State Hort. Soc, V. 94, 169-172.

Ugen MA, Ndegwa AM, Nderitu JH, Musoni A, Ngulu F. 2005. Enhancing competitiveness of snap beans for domestic and export markets. Asareca Cgc Full Proposal Document. asareca/naro/kari/uon/isar/sari-Kenya.

Wakweya K., Dargie R., Meleta T. 2016. Effect of sowing date and seed rate on faba bean (Vicia faba L.,) growth, yield and components of yield at Sinana, Highland conditions of Bale, Southeastern Ethiopia. Int. J. Sci. Res. Agric. Sci. 3, 25–34.

Yayınlanmış

2023-04-23

Nasıl Atıf Yapılır

Hussein, A. M., & Benmoussa, M. (2023). Planting Density and Dose of Nitrogen and Potassium as Influencing Pod Characters of Snap Bean (Phaseolus vulgaris L.). Türk Tarım - Gıda Bilim Ve Teknoloji Dergisi, 11(4), 634–638. https://doi.org/10.24925/turjaf.v11i4.634-638.5324

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