M. Dardiry scite author profile

M. Dardiry

2Publications

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24Citation Statements Given

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Ministry of Water Resources and Irrigation

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Appraisal of maize yield and its traits with different nitrogen fertilization levels under intercropping cultivation, Upper Egypt

Moghazy

Youssef

Dardiry

et al. 2020

Archives of Agriculture Sciences Journal

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A field experiment was conducted during summer season of 2017 and 2018 at the experimental farm of El-Mattaena Agricultural Research Station, Luxor Governorate, Upper Egypt, which is located at a 25  18-N latitude and 32  34-E longitude. The study aimed to evaluate the effect of nitrogen fertilizer levels on maize growth and its yield under sole and intercropping maize with green bean system as well as water productivity and saved land. The experiment was laid out in a split-plot design with four replicates. The main plots were assigned for two cropping system; (1) maize crop only and (2) maize intercropped with green bean. The split plots were occupied by urea fertilizer (46.5% N) levels of 90, 120 and 150 kg N/fed (fed = feddan = Acre). The maximum maize yield (grain and straw) and its component (plant height, stem diameter, leaves number/plant, grains number/cob and weight of 1000 grains) as well as NPK content in maize grain were observed under intercropping system that received 150 kg N/fed. The maximum value of partial land equivalent ratio (LER) of maize or green bean was recorded when they fertilized by 150 kg N/fed. The LERs of intercrops between maize and green bean showed that the saved lands were over 36%. The highest values of crop water productivity of 1.40 kg grain /m 3 under intercropping system and 1.18 kg grain /m 3 under mono-cropping system were recorded with application of 150 kg N/fed. In general, fertilization at 150 kg N/ fed. proved to be the most effective treatment for maize grain yield and its component as well as maize water relationships especially crop water productivity.

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Evaluating DSSAT program for simulating wheat yield production with different irrigation and nitrogen applications under Upper Egypt conditions

Gameh

Ahmed

Dardiry

et al. 2020

Archives of Agriculture Sciences Journal

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The overall objective of this work was to study the irrigation scheduling effects on the productivity of irrigated wheat in relation to mineral organic nitrogen fertilization, including initial testing of the DSSAT v4.7.0.0 model. In order that, a field experiment was conducted under Upper Egypt conditions in El-Mattana Agricultural Research Station, Luxor governorate, Egypt. The data of irrigation scheduling ((I1) 1.2, (I2) 1.0 and (I3) 0.8 pan evaporation coefficient) and mineral organic nitrogen fertilization program ((F1) 75 kg N fed -1 as compost, (F2) 75%N as compost + 25% N as mineral, (F3) 50% N as compost + 50% N as mineral (F4) 25%N as compost + 75% N as mineral and (F5) 75 kg N feddan -1 as urea) (feddan = 4200 m² = 0.420 hectares = 1.037 acres) during the two studied seasons 2016/17 and 2017/18, were used for model calibration and validation. Model evaluation results showed a closer relationship between CERES-DSSAT and observed wheat grain yield at both seasons. The values of relative root mean square error (RRMSE), coefficient of residual mass (CRM) and index of agreement (d-stat) were 6.6, 9.6 and 0.90 in the 1 st and 3.9, 1.7 and 0.92 in the 2 nd season, respectively. So, it could be concluded that the model works well under Upper Egypt condition, thus, studying the impacts of different management and climate change can be applied.

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M. Dardiry

Appraisal of maize yield and its traits with different nitrogen fertilization levels under intercropping cultivation, Upper Egypt

Evaluating DSSAT program for simulating wheat yield production with different irrigation and nitrogen applications under Upper Egypt conditions

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