Effect of row spacing and seed rate on yield and yield component of Common bean (Phaseolus vulgaris L.) cultivars in Guilan Province

Document Type : Original Articles

Authors

Rasht

Abstract

In order to evaluate the effects of row spacing and seed rate on yield and yield component of Common bean (Phaseolus vulgaris L.) cultivars, a split plot factorial experiment based on randomized complete block design with 3 replications was conducted at second crop research station of Rice Research Institute of Iran (Rasht) during 2008 and 2009. Experimental factors were row spacing in three levels (20, 30 and 40 cm) as main plot and seed rate in three levels (70, 90 and 110 kg.ha-1) and common bean cultivars including Khaldar bean short maturation and Red Kiashahri cultivars as sub plots. The results of the combined analysis of variance showed significant differences between the years, row spacing, cultivars and seed rate in pod and grain yields. The results of mean comparisons showed that maximum pod and grain yields were obtained from the second year (with average of 2689.7 and 1478.8 kg.ha-1), row spacing of 20 cm (with average of 2617.6 and 1396.3 kg.ha-1), Khaldar bean short maturation cultivar (with average of 2475.6 and 1398.8 kg.ha-1) and seed rate of 110 kg.ha-1 (with average of 2551.1 and 1414.1
kg.ha-1). Results of factor analysis placed the studied traits in three separate groups and plant density per square meter, number of seed per square meter and seed weight per square meter among with the pod and grain yields were in the same group. The use of narrow row spacing (20 cm), more amount of seed (110 kg.ha-1) and Khaldar bean short maturation cultivar may increase the pod and grain yields of Phaseolus vulgaris cultivars and is recommended for planting Common bean in the Guilan area.

Keywords


1. Adams, P.D., and Weaver, D.B. 1998. Brachytic stem traits, row spacing and plant population effects on soybean yield. Crop Science 38: 750-755.
2. Andrade, F.H., Calvino, P.A., Ciriloc, A., and Barbieria, P. 2002. Yield responses to narrow rows depend on increased radiation interception. Agronomy Journal 94: 975-980.
3. Azizi, F., Rezai, A., and Maybodi, S. 2001. Genetic and phenotypic variability and factor analysis for morphological traits in genotypes of Common bean (Phaseolus vulgaris L.). Journal of Science and Technology of Agriculture and Natural Resources, Water and Soil Science 5(3): 127-141. (In Persian with English Summary).
4. Babaeian, M., Javaheri, M., and Asgharzade, A. 2012. Effect of row spacing and sowing date on yield and yield components of Common bean (Phaseolus vulgaris L.). African Journal of Microbiology Research 6(20): 4340-4343.
5. Bashtani, A. 1997. The investigation of plant density on yield and yield components of common bean. M.Sc. Thesis. Ferdowsi University of Mashhad. Iran. (In Persian with English Summary).
6. Faraji, H., Gholizadeh, S., Owliaiee, H.R., and Azimi Gandomani, M. 2010. Effect of plant density on grain yield of three spotted bean (Phaseolus vulgaris) cultivars in Yasouj condition. Iranian Journal of Pulses Research 1(1): 43-50. (In Persian with English Summary).
7. Ghanbari A.A., and Taheri-Mazandarani, M. 2003. Effects of sowing date and plant density on yield of spotted bean. Seed and Plant Journal 19(4): 384-496. (In Persian with English Summary).
8. Golchin, A. Mousavi, S.F. Ghasemi Golezani, K., and Saba, J. 2008. Relationship between plant density and grain yield of three pinto bean cultivars at different sowing dates. Journal of Agricultural Science 18(1): 101-117. (In Persian with English Summary).
9. Hayate, F., Arif, M., and Kakar, K.M. 2003. Effects of seed rates on mung bean varieties under dry land conditions. International Journal of Agricultural and Biological Engineering 5(1): 160-161.
10. Hossain, M.K., Islam, M.S., and Sutardhar, G.N.C. 2008. Effect of nitrogen and molybdenum on the growth and yield of bush bean (Phaseolus vulgaris L.). Journal of Agroforestry and Environment 2(2): 95-98.
11. Jettner, R.J., Siddique, K.H.M., Loss, S.P., and French, R.J. 1999. Optimum plant density of desi chickpea (Cicer arietinum) increasing yield potential in south-western Australia. Australian Journal of Agricultural Research 50: 1017-1025.
12. Jafari, A.R., Ardakani, M.R., Dorri, H.R., Ghanbari, A.K., and Ilikayi, M.N. 2010. Effect of row spacing and plant density on yield and yield component of two White bean (Phaseolus vulgaris) promising lines in presence and absence of weeds. Iranian Journal of Field Crops Research 8(1): 34-41. (In Persian with English Summary).
13. Kahrarian, B., and Fatemi, R. 2005. The effect of row spacing and planting space on the grain yield in white bean cv. Daneshkadeh. Iranian Journal of Crop science 6(4): 438-440. (In Persian with English Summary).
14. Madani, H., Shirzadi, M.H., Darini, F. 2008. Effect of plant density on yield and yield components of vigna and tepary local beans germplasm in Jiroft, Iran. New findings in Agriculture 3(1): 93-104. (In Persian with English Summary).
15. Moeini, M.R., Nazarkakhki, H., Razazi, A., and Kamel Shikharjeh, M. 2009. Survey of yield and yield component in three common bean cultivars in cropping pattern. Journal of Agrisearch 1(2): 78-92. (In Persian with English Summary).
16. Moshatati, A., Moussawi, S.H., Siadat, S.A., and Fathi, G. 2010. Effect of sowing date and plant density on yield and yield components of Cow Pea (Vigna sinensis L.) in Ahwaz. Electronic Journal of Crop Production 3(3): 229-238. (In Persian with English Summary).
17. Parvizi, S., Amirnia, R., Bernosy, I., Paseban Islam, B., Hasanzadeh Ghorttapeh, A., and Raeii, Y. 2011. Evaluation of different plant densities effects on rate and process of grain filling, yield and yield components in varieties of dry bean. Journal of Plant Production 18(1): 69-87. (In Persian with English Summary).
18. Powelson, A., Udy, R.I., and Peachy Manath, D. 1999. Row spacing effect on while mold and snap bean yield. Horticulture Weed Control 8: 220-227.
19. Redden, R., Usher, J., Younger, T., Mayer, D., Hall, R., Fernandes, A., and Kirton D. 1987. Response of navy beans to row width and plant population density in Queensland. Australian Journal of Experimental Agriculture 27: 455-463.
20. Salehi, F. 2005. Study of plant density in promising red bean lines. The 1st Iranaian Pulses Symposium. November 20 and 21, 2005. Mashhad. p. 117-120. (In Persian).
21. Singh, S.P., and Gutierrez, J.A. 1990. Effect of plat density on selection for seed yield in two population types of Phaseolus vulgaris L. Euphytica 51:173-178.
22. Torabi Jafroudi, A., Hasanzadeh, A.A., and Fayaz moghadam, A. 2004. Effect of plant population on some morph physiological characteristics of two Common bean (Phaseolus vulgaris L.) cultivars. Pajouhesh & Sazandegi 20(1): 63-71. (In Persian with English Summary).
23. White, J.W., Kornegay, J., Castillo, J., Molano, C.H., Cajiao, C., and Tejada, G. 1992. Effect of growth habit on yield of large-seeded bush cultivars of common bean. Field Crops Research 29(2): 151-161.
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