Agronomic performance, seed quality and nitrogen uptake of Descurainia sophia in response to different nitrogen rates and water regimes

► This is the first report of D. sophia behavior under water regimes and N rates. ► Response of D. sophia was mainly due to N rate rather than irrigation treatment. ► Seed yield was more affected by cold stress, siliques per plant and plant density. ► The increase in NHI is due to a more than propor...

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Published in:Industrial crops and products 2013-01, Vol.44, p.583-592
Main Authors: Mokhtassi-Bidgoli, Ali, AghaAlikhani, Majid, Nassiri-Mahallati, Mehdi, Zand, Eskandar, Gonzalez-Andujar, Jose Luis, Azari, Arman
Format: Article
Language:English
Subjects:
agronomic traits
annual weeds
Biomass
costs and returns
crops
Descurainia sophia
fertilizer rates
field experimentation
growing season
harvest index
irrigation management
nitrogen
Nitrogen accumulation
nitrogen content
plant available water
pods
rangelands
Seed production
seed quality
seed yield
semiarid zones
Sisymbrium sophia
straw
Water productivity
water use efficiency
Yield components
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Summary:► This is the first report of D. sophia behavior under water regimes and N rates. ► Response of D. sophia was mainly due to N rate rather than irrigation treatment. ► Seed yield was more affected by cold stress, siliques per plant and plant density. ► The increase in NHI is due to a more than proportional increase in seed N uptake. ► The highest revenue and economic profit were obtained with the highest N level. Descurainia sophia (flixweed) is an annual weed widely distributed in cultivated crops, forage and rangelands throughout the world. This weed, in particular its seed, is used for food, medicinal and industrial purposes. The objective of this study was to investigate the effects of irrigation management and different application rates of nitrogen on morphological traits and yield components of this weed as a means of enhancing production and economic returns. A two-year field experiment was conducted in a semi-arid region in Iran during the 2009–2010 and 2010–2011 growing seasons. The experiment was a split plot in a randomized complete block design with three replicates, with irrigation treatments as main plots and nitrogen rates as sub plots. The three irrigation regimes consisted of 0.1 maximum allowable depletion or deficiency (MAD) of available soil water (ASW), 0.2 MAD of ASW, 0.4 MAD of ASW in 2010 and 0.2 MAD of ASW, 0.4 MAD of ASW and 0.8 MAD of ASW in 2011. The plants were grown at three nitrogen rates of 0, 200, and 300kgNha−1. Generally there were significant increases in seed yield, biomass, straw yield, harvest index, number of siliques (pods) per plant, seed weight, plant height, time to maturity, water use efficiency, protein concentration in seed, straw N concentration, nitrogen uptakes and nitrogen harvest index each growing season by applying nitrogen at all irrigation treatments. There was a decreasing trend in number of plants per m2, nitrogen utilization efficiency and oil concentration with increasing nitrogen application under all the irrigation treatments. Seed yield response to irrigation treatments and N rates seemed to be more related to number of plants per m2 and number of siliques per plant. The highest seed yield was obtained at the plant population of 686plantsperm2. The results obtained here suggest that nitrogen application can improve the seed yield and seed quality of D. sophia grown under different irrigation regimes. Averaged over both years, the application of 300kgNha−1 under 0.2 MAD of ASW resulted in the hi
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2012.09.018