F. Abbaspour; H.R. Asghri; P. Rezvani Moghaddam; H. Abbasdokht; J. Shabahang; A. Baig Babaei
Abstract
A field experiment was conducted focusing on the effects of biochar on quantity characteristics of Black Seed (Nigella sativa L.) under water deficit conditions. The experimental design was split plot factorial in a randomized complete block design with three replications. Three levels of irrigation ...
Read More
A field experiment was conducted focusing on the effects of biochar on quantity characteristics of Black Seed (Nigella sativa L.) under water deficit conditions. The experimental design was split plot factorial in a randomized complete block design with three replications. Three levels of irrigation (I1: 100%, I2: 70% and I3: 40% of water irrigation requirement) were assigned as main plots and the combination of three levels of biochar (B1: 0, B2: 10 and B3:20 t.ha-1) and two levels of chemical fertilizers (F1: without and F2: with chemical fertilizer) were allocated as sub plots. Results were shown that seed number per plant and seed weight per plant significantly increased by 10 t.ha-1 biochar application compared with 20 t.ha-1. Chemical fertilizer significantly affected the yield components of black seed except 1000-seed weight. The interaction between biochar, chemical fertilizer and water requirements significantly affected the seed yield and biological yield. The result revealed that the application of 10 t.ha-1 biochar plus 70% water irrigation requirement and using chemical fertilizer (I2B2F2) produced the highest seed yield and biological yield (1365 and 5776 kg.ha-1, respectively). Application of biochar combined with chemical fertilizers could improve soil nutrient and water availability conditions and increased the yield of black seed.
A.R. Zarei; S. Zohrabi; F. Boomeh
Abstract
The amount of evapotranspiration or amount of water consumed by plant is the basis of irrigation planning. Irrigation without awareness of the actual plant requirement for water causes economic losses and reduced water use efficiency. One of the best approaches to assess plant water requirement is determination ...
Read More
The amount of evapotranspiration or amount of water consumed by plant is the basis of irrigation planning. Irrigation without awareness of the actual plant requirement for water causes economic losses and reduced water use efficiency. One of the best approaches to assess plant water requirement is determination of crop coefficient using lysimeters. The aim of this study, which was conducted at Fasa University, located 140 kilometers south-east of Shiraz, was to evaluate the different growth stages of Nigella sativa L. and determine the crop coefficient of this annual species. In this study, the crop coefficient of the study species was determined by using a weighing microlysimeter (40×30 cm) and three replications in a good moisture condition. The results showed that the length of each growth stage (initial, developmental, middle and final growth stage) was calculated to be 10, 11, 41 and 23 days, respectively. The crop coefficient (Kc) of Nigella sativa in each stage was calculated to be 0.75, 1.02, 1.21 and 0.8, respectively.
E. Sharifi Ashoorabadi; H. Rouhipour; M.H. Assareh; S.R. Tabei Aghdaei; M.H. Lebaschy; B. Naderi
Abstract
In order to investigate of water requirement in Rosa damascene Mill., an experiment was carried out in the Alborz Research Center in 2012. The lysimeters with drainage system were used for Rosa damascene (adult plant), Medicago sativa (reference plant) and control group (only soil). For each lysimeter, ...
Read More
In order to investigate of water requirement in Rosa damascene Mill., an experiment was carried out in the Alborz Research Center in 2012. The lysimeters with drainage system were used for Rosa damascene (adult plant), Medicago sativa (reference plant) and control group (only soil). For each lysimeter, the soil moisture content was measured by weighting method before and after applying irrigation treatments based on the field capacity. The amount of water requirement and run-off were measured in each lysimeter. The evapotranspiration of Rosa damascene (ETc) and reference plant (ETo) was estimated by lysimeter. The plant coefficient of Rosa damascene (Kc) was calculated by ETc/ETo ratio. In order to comparison of lysimeter data with indirect methods, the Blaney Criddle and Penman-Monteith methods (corrected by FAO) were used to determine the evapotranspiration in reference plant. According to the obtained results, WUE and ETo in Rosa damascene were calculated to be 2.18 and 46.0, respectively. The evapotarnspiration of Rosa damascene after 820 GDD in full flowering, was 111 mm. The ETc after 3740 GDD in the late stage was estimated to be 1147 mm. The evapotarnspiration of reference plants, after 3833 GDD, in lysimeter, Blaney Criddle and Penman-Monteith methods were 1247, 1392 and 1160 mm, respectively. Based on results, a similar estimation of ETo content was obtained by lysimetr and computational methods.
E. Sharifi Ashoorabadi; H. Rouhipour; M.H. Assareh; M.H Lebaschy; B. Abaszadeh; B. Naderi; M. Rezaei sarkhosh
Abstract
To investigate the crop water requirement of yarrow (Achillea millefolium L.), an experiment was carried out in the Alborz Research Complex during 2007-2008. Crop water requirement was determined using Penman-Monteith method and lysimetery. The Penman-Monteith method was used to estimate the evapotranspiration ...
Read More
To investigate the crop water requirement of yarrow (Achillea millefolium L.), an experiment was carried out in the Alborz Research Complex during 2007-2008. Crop water requirement was determined using Penman-Monteith method and lysimetery. The Penman-Monteith method was used to estimate the evapotranspiration of the hypothetical reference crop with fixed crop parameters. The Kc coefficients for Achillea millefolium were calculated to be 0.16, 0.45, 1.05 and 0.81 for the initial, development, middle and the late stages (80 percent of plant flowering) of growth, respectively. According to the results, Achillea millefolium could be recommended for dry land farming areas with minimum 149.72 mm annual rainfall.