Abstract
Growth, yield components, and N utilization patterns of spring chickpea (Cicer arietinum L.) cultivars were investigated for 2 years under Mediterranean conditions, and the associations with seed yield were identified. Three desi-type cultivars (Andros, Kassos, and Serifos) and one kabuli-type cultivar (Zehavit-27) were assessed under March and April planting. April planting resulted in higher early dry matter and N accumulation, which were not reflected in increased seed yield compared with March planting. Chickpea growth was co-limited by both source and sink limitations induced by the environment during the seed filling period. Most of the variation (> 94%) in seed yield was accounted for by the variation in seeds m−2 rather than that in seed size. The seed number was reduced on average by 7–18.2 seeds m−2 day−1 of planting delay, with the penalty being higher the year with the greater yield potential. In addition, the number of seeds m−2 was reduced by 21% and by 18% for every degree Celsius increase in mean and maximum temperature during the early reproductive period, respectively. Biomass production efficiency (33.9–51.6 kg kg−1) was greater than nitrogen utilization efficiency (17.8–27.2 kg kg−1). The proportion of total plant N allocated to the seeds at maturity (i.e., nitrogen harvest index) was the limiting factor for enhanced N utilization. Overall, March planting may ameliorate growth limitations by bringing the reproductive stage earlier and, consequently, it may be more advantageous in terms of both seed yield and seed quality compared with April planting.
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Abbreviations
- BPE:
-
Biomass production efficiency
- BPEvege:
-
Modified biomass production efficiency
- CGR:
-
Crop growth rate
- DAE:
-
Days after emergence
- ENUR:
-
Economic nitrogen uptake rate
- GS:
-
Growth stage
- ISW:
-
Individual seed weight
- NHI:
-
Nitrogen harvest index
- NUR:
-
Nitrogen uptake rate
- NUtE:
-
Nitrogen utilization efficiency
- SNUR:
-
Seed nitrogen uptake rate
References
Anwar, M. R., McKenzie, B. A., & Hill, G. D. (2003). The effect of irrigation and sowing date on crop yield and yield components of Kabuli chickpea (Cicer arietinum L.) in a cool-temperate subhumid climate. Journal of Agricultural Science, 141, 259–271.
Auld, D. L., Bettis, B. L., Crock, J. E., & Kephart, K. D. (1988). Planting date and temperature effects on germination, emergence, and seed yield of chickpea. Agronomy Journal, 80, 909–914.
Ayaz, S., McKenzie, B. A., Hill, G. D., & McNeil, D. L. (2004). Variability in yield of four grain legume species in a subhumid temperate environment I. Yields and harvest index. Journal of Agricultural Science, 142, 9–19.
Baligar, V. C., Fageria, N. K., & He, Z. L. (2001). Nutrient use efficiency in plants. Communications in Soil Science and Plant Analysis, 32, 921–950.
Basu, P. S., Masood, A., & Chaturvedi, S. K. (2009). Terminal heat stress adversely affects chickpea productivity in northern India–Strategies to improve thermo tolerance in the crop under climate change. In Proceedings of the XXXVIII workshop of the international society for photogrammetry and remote sensing: impact of climate change on agriculture (pp. 189–193). ISRO, Ahmadabad, India.
Beech, D. F., & Leach, G. J. (1989). Effect of plant density and row spacing on the yield of chickpea (cv. Tyson) grown on the Darling Downs, south-eastern Queensland. Australian Journal of Experimental Agriculture, 29, 241–246.
Berger, J. D., & Turner, N. C. (2007). The ecology of chickpea: evolution, distribution, stresses and adaptation from an agro-climatic perspective. In S. S. Yadav, R. Redden, W. Chen, & B. Sharma (Eds.), Chickpea breeding and management (pp. 47–71). Wallingford, UK: CAB International.
Board, J. E., Kang, M. S., & Bodrero, M. L. (2003). Yield components as indirect selection criteria for late-planted soybean cultivars. Agronomy Journal, 95, 420–429.
Bremner, J. M. (1965). Total nitrogen. In C. A. Black, D. D. Evans, J. L. White, L. E. Ensminger, & F. E. Clark (Eds.), Methods of soil analysis, part 2 (pp. 1149–1178). Madison, USA: American Society of Agronomy.
Davies, S. L., Turner, N. C., Siddique, K. H. M., Leport, L., & Plummer, J. A. (1999). Seed growth of desi and kabuli chickpea (Cicer arietinum L.) in a short-season Mediterranean-type environment. Australian Journal of Experimental Agriculture, 39, 181–188.
Dawson, J. C., Huggins, D. R., & Jones, S. S. (2008). Characterizing nitrogen use efficiency in natural and agricultural ecosystems to improve the performance of cereal crops in low-input and organic agricultural systems. Field Crops Research, 107, 89–101.
Dwyer, L. M., Anderson, A. M., Stewart, D. W., Ma, B. L., & Tollenaar, M. (1995). Changes in maize hybrid photosynthetic response to leaf nitrogen, from preanthesis to grain fill. Agronomy Journal, 87, 1221–1225.
European Commission (2013). CAP Reform – an explanation of the main elements. MEMO/13/937, October 2013. European Commission, DG Agriculture and Rural Development, Brussels.
FAO (2014). FAO Statistical databases. FAO. http://faostat.fao.org. Accessed 02 March 2018.
Fixen, P., Brentrup, F., Bruulsema, T., Garcia, F., Norton, R., & Zingore, S. (2014). Nutrient/fertilizer use efficiency; measurement, current situation and trends, Chapter 1. In P. Drechsel, P. Heffer, H. Magen, R. Mikkelsen, & D. Wichelns (Eds.), Managing water and fertilizer for sustainable agricultural intensification. Paris, France: IFA/IWMI/IPNI/IPI.
Fotiadis, S., Koutroubas, S. D., & Damalas, C. A. (2017). Sowing date and cultivar effects on assimilate translocation in spring Mediterranean chickpea. Agronomy Journal, 109, 2011–2024.
Gan, Y. T., Liu, P. H., Stevenson, F. C., & McDonald, C. L. (2003). Interrelationships among yield components of chickpea in semiarid environments. Canadian Journal of Plant Science, 83, 759–767.
Gómez, K. A., & Gómez, A. A. (1984). Statistical procedures for agricultural research. New York, USA: Wiley.
Harper, J. E. (1971). Seasonal nutrient uptake and accumulation patterns in soybeans. Crop Science, 11, 347–350.
Holzkämper, A., Calanca, P., & Fuhrer, J. (2013). Identifying climatic limitations to grain maize yield potentials using a suitability evaluation approach. Agricultural and Forest Meteorology, 168, 149–159.
Iliadis, C. (2001). Evaluation of six chickpea varieties for seed yield under autumn and spring sowing. Journal of Agricultural Science, 137, 439–444.
Koutroubas, S. D., Fotiadis, S., & Damalas, C. A. (2012). Biomass and nitrogen accumulation and translocation in spelt (Triticum spelta) grown in a Mediterranean area. Field Crops Research, 127, 1–8.
Koutroubas, S. D., Fotiadis, S., & Damalas, C. A. (2016). Grain yield and nitrogen dynamics of Mediterranean barley and triticale. Archives of Agronomy and Soil Science, 62, 484–501.
Koutroubas, S. D., Fotiadis, S., Damalas, C. A., & Papageorgiou, M. (2014). Grain-filling patterns and nitrogen utilization efficiency of spelt (Triticum spelta) under Mediterranean conditions. Journal of Agricultural Science, 152, 716–730.
Koutroubas, S. D., & Ntanos, D. A. (2003). Genotypic differences for grain yield and nitrogen utilization in Indica and Japonica rice under Mediterranean conditions. Field Crops Research, 83, 251–260.
Koutroubas, S. D., Papageorgiou, M., & Fotiadis, S. (2009). Growth and nitrogen dynamics of spring chickpea genotypes in a Mediterranean-type climate. Journal of Agricultural Science, 147, 445–458.
Koutroubas, S. D., Papakosta, D. K., & Doitsinis, A. (2008). Nitrogen utilization efficiency of safflower hybrids and open-pollinated varieties under Mediterranean conditions. Field Crops Research, 107, 6–61.
Koutroubas, S. D., Veresoglou, D. S., & Zounos, A. (2000). Nutrient use efficiency as a factor determining the structure of herbaceous plant communities in low-nutrient environments. Journal of Agronomy and Crop Science, 184, 261–266.
Lake, L., Chenu, K., & Sadras, V. O. (2016). Patterns of water stress and temperature for Australian chickpea production. Crop and Pasture Science, 67, 204–215.
Lake, L., & Sadras, V. O. (2014). The critical period for yield determination in chickpea (Cicer arietinum L.). Field Crops Research, 168, 1–7.
Latshaw, S. P., Vigil, M. F., & Haley, S. D. (2016). Genotypic differences for nitrogen use efficiency and grain protein deviation in hard winter wheat. Agronomy Journal, 108, 2201–2213.
Leport, L., Turner, N. C., Davies, S. L., & Siddique, K. H. M. (2006). Variation in pod production and abortion among chickpea cultivars under terminal drought. European Journal of Agronomy, 24, 236–246.
Leport, L., Turner, N. C., French, R. J., Barr, M. D., Duda, R., Davies, S. L., et al. (1999). Physiological responses of chickpea genotypes to terminal drought in a Mediterranean-type environment. European Journal of Agronomy, 11, 279–291.
Liao, M. T., Fillery, I. R. P., & Palta, J. A. (2004). Early vigorous growth is a major factor influencing nitrogen uptake in wheat. Functional Plant Biology, 31, 121–129.
López-Bellido, F. J., López-Bellido, R. J., Khalil, S. K., & López-Bellido, L. (2008). Effect of sowing date on winter kabuli chickpea growth and yield under rainfed Mediterranean conditions. Agronomy Journal, 100, 957–964.
López-Bellido, L., López-Bellido, R. J., Castillo, J. E., & López-Bellido, F. J. (2004). Chickpea response to tillage and soil residual nitrogen in a continuous rotation with wheat: I. Biomass and seed yield. Field Crops Research, 88, 191–200.
Mamolos, A. P., Veresoglou, D. S., & Barbayiannis, N. (1995). Plant species abundance and tissue concentrations of limiting nutrients in low-nutrient grasslands: a test of competition theory. Journal of Ecology, 83, 485–495.
Mansour, E., Merwad, A., Yasin, M., Abdul-Hamid, M. I. E., El-Sobky, E. E. A., & Oraby, H. (2017). Nitrogen use efficiency in spring wheat: genotypic variation and grain yield response under sandy soil conditions. Journal of Agricultural Science, 155, 1407–1423.
Martin, S. G., Van Acker, R. C., & Friesen, L. F. (2001). Critical period of weed control in spring canola. Weed Science, 49, 326–333.
Moll, R. H., Kamprath, E. J., & Jackson, W. A. (1982). Analysis and interpretation of factors which contribute to efficiency of nitrogen utilization. Agronomy Journal, 74, 562–564.
Muurinen, S., Kleemola, J., & Peltonen-Sainio, P. (2007). Accumulation and translocation of nitrogen in spring cereal cultivars differing in nitrogen use efficiency. Agronomy Journal, 99, 441–449.
Neugschwandtner, R. W., Wagentristl, H., & Kaul, H. P. (2014). Nitrogen concentrations and nitrogen yields of above ground dry matter of chickpea during crop growth compared to pea, barley and oat in central Europe. Turkish Journal of Field Crops, 19, 136–141.
Neugschwandtner, R. W., Wagentristl, H., & Kaul, H. P. (2015). Nitrogen yield and nitrogen use of chickpea compared to pea, barley and oat in Central Europe. International Journal of Plant Production, 9, 291–304.
Omoigui, L. O., Alabi, S. O., & Kamara, A. Y. (2007). Response of low-N pool maize population to nitrogen uptake and use efficiency after three cycles of full-sib recurrent selection. Journal of Agricultural Science, 145, 481–490.
Ortiz-Monasterio, J. I., Sayre, K. D., Rajaram, S., & McMahon, M. (1997). Genetic progress in wheat yield and nitrogen use efficiency under four nitrogen rates. Crop Science, 37, 898–904.
Osaki, M., Shinano, T., & Tadano, T. (1992). Carbon-nitrogen interaction in field crop production. Soil Science and Plant Nutrition, 38, 553–564.
Phakamas, N., Patanothai, A., Pannangpetch, K., Jogloy, S., & Hoogenboom, G. (2008). Seasonal responses and genotype-by-season interactions for the growth dynamic and development traits of peanut. Journal of Agricultural Science, 146, 311–323.
Rahimizadeh, M., Kashani, A., Zare-Feizabadi, A., Koocheki, A., & Nassiri Mahallati, M. (2010). Nitrogen use efficiency of wheat as affected by preceding crop, application rate of nitrogen. Australian Journal of Crop Science, 4, 363–368.
Rakotoson, T., Dusserre, J., Letourmy, P., Ramonta, I. R., Cao, T. V., Ramanantsoanirina, A., et al. (2017). Genetic variability of nitrogen use efficiency in rainfed upland rice. Field Crops Research, 213, 194–203.
Redden, R. J., & Berger, J. D. (2007). History and origin of chickpea. In S. S. Yadav, R. Redden, W. Chen, & B. Sharma (Eds.), Chickpea breeding and management (pp. 1–13). Wallingford, UK: CAB International.
Regan, K. L., Siddique, K. H. M., Brandon, N. J., Seymour, M., & Loss, S. P. (2006). Response of chickpea (Cicer arietinum L.) varieties to time of sowing in Mediterranean-type environments of south-western Australia. Animal Production Science, 46, 395–404.
Saxena, M. C., Saxena, N. P., & Mohammed, A. K. (1988). High temperate stress. In R. J. Summerfield (Ed.), World crops: Cool-season food legumes (pp. 845–856). Dordrecht, The Netherlands: Kluwer Academic Publisher.
Saxena, N. P., Krishnamurthy, L., & Johansen, C. (1994). Registration of a drought resistant chickpea germplasm. Crop Science, 33, 1424–1426.
Siddique, K. H. M., Walton, G. H., & Seymour, M. (1993). A comparison of seed yields of winter grain legumes in Western Australia. Australian Journal of Experimental Agriculture, 33, 915–922.
Singh, K. B., Malhotra, R. S., Saxena, M. C., & Bejiga, G. (1997). Superiority of winter sowing over traditional spring sowing of chickpea in the Mediterranean region. Agronomy Journal, 89, 112–118.
Soltani, A., Hammer, G. L., Torabi, B., Robertson, M. J., & Zeinali, E. (2006a). Modeling chickpea growth and development: phenological development. Field Crops Research, 99, 1–13.
Soltani, A., Robertson, M. J., & Manschadi, A. M. (2006b). Modeling chickpea growth and development: Nitrogen accumulation and use. Field Crops Research, 99, 24–34.
Taggar, G. K., & Singh, R. (2011). Integrated management of insect pests of Rabi pulses. In R. Arora, B. Singh, & A. K. Dhawan (Eds.), Theory and Practice of Integrated Pest Management (pp. 454–472). Jodhpur, India: Scientific Publishers.
Thomson, B. D., Siddique, K. H. M., Barr, M. D., & Wilson, J. M. (1997). Grain legume species in low rainfall Mediterranean-type environments I. Phenology and seed yield. Field Crops Research, 54, 173–187.
Toker, C., Lluch, C., Tejera, N. A., Serraj, R., & Siddique, K. H. M. (2007). Abiotic stresses. In S. S. Yadav, R. Redden, W. Chen, & B. Sharma (Eds.), Chickpea breeding and management (pp. 474–496). Wallingford, UK: CAB International.
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This research is part of the first author’s PhD Thesis.
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Fotiadis, S., Koutroubas, S.D. & Damalas, C.A. Nitrogen Utilization and Yield Determination of Spring Mediterranean Chickpea as Influenced by Planting Date and Environmental Conditions. Int. J. Plant Prod. 13, 59–72 (2019). https://doi.org/10.1007/s42106-018-0034-y
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DOI: https://doi.org/10.1007/s42106-018-0034-y