تاثير نظام الزراعة واضافة السماد Moench النتروجيني في نمو وحاصل محصولي الذرة البيضاء .Vigna radiata L والماش (.L) Sorghum bicolor == Effect of planting system and Nitrogen fertilizer application on growth and yield of Sorghum (Sorghum bicolor (L). Moench) and Mungbean (Vigna radiate L.)
Author name:
ياسين محسن غضيب البهادلي
Supervisor name:
علي فرهود ناصر
General topic:
Agricultural sciences
Specific topic:
Plant - Field Crops
Degree:
Master
University:
University Of Basrah - Faculty Of Agriculture
Language:
Arabic
University location:
Basrah
First pages:
31T1890 - p.pdf
Abstract:
Field experiment executed during 2015 season in farmers' fields in the AL - Maymonh district southwest of Missan province ( about 30 km from city center) in Silty loam soil. The objective of the study was to know the effect of intercropping system and nitrogen fertilizer on growth and yield of Sorghum and Mungbean, The experiment executed in split - plot in (R.C.B.D) design with three replicates, main plot were include nitrogen fertilizer with four levels (F1=50 , F2=100, F3= 150, F4=200) Kg N ha - 1. While sub plot were include three planting systems (Sorghum only= S1, Mungbean only=S2, one line of Sorghum + one line of Mungbean= S3). Variety kafer of Sorghum and local variety of Mungbean was used. The experiment include 36 experimental units, area of each units (3and studying the following characteristics : Plant height(cm),the number of leaves ,leaf area(cm2),leaf area index for two crops, number of grain in panicle and 1000 grain weight(gm) of sorghum ,number of pod.plant - 1, number of seed.pod - 1 and 1000 seed weight (gm) of Mungbean ,biological yield (t ha - 1) ,total economic yield (t ha - 1),harvest index (%) ,protein percentage (%) for two crops. Results were analyses statistically and mean compared with LSD test, the result of the study showed the following : 1 - Single plant pattern caused significant increasing on plant height of Sorghum and Mungbean, number of leaves; leaf area; leaf area index; number of grain in panicle;number of pod in plant; number of seed in pod; weight of 1000 grain or seed for Sorghum and Mungbean; biological yield of Mungbean; seed yield of Mungbean 1.79 t ha - 1; highest protein percentage of Mungbean. Single planting pattern non - significant in Sorghum biological yield; harvest index of Mungbean. Intercropping pattern caused significant increase in protein percentage of Sorghum and non - significant increase grain yield of Sorghum that gave 4.58 t ha - 1 compared with single plant pattern that gave 4.57 t ha - 1.2 - Increasing N rate increased almost studied characteristics , level of 200 kg N ha - 1 gave highest average of plant height of Sorghum and Mungbean; number of Sorghum leaves; leaf area , leaf area index, biological yield of Sorghum and Mungbean; number of grain in panicle; number of seed in pod; number of pod in plant; highest grain yield of Sorghum 6.50 tha - 1; highest seed yield of Mungbean 2.60 th - 1 and highest harvest index for Sorghum and Mungbean, Application 150 kg N ha - 1 significantly increased protein percentage and gave highest average of Sorghum and Mungbean Application nitrogen fertilizer non - significant on, number of leaves of Mungbean and weight 1000 grain seed for two crops.3 - Results also showed a significant Interaction between nitrogen fertilizer and intercropping pattern ,the highest leaf area; leaf area index; number of seed in pod and biological yield of Mungbean, obtained at treatment (F4*S2),. Intercropping of Sorghum and Mungbean (1 : 1) with nitrogen 200 kg N ha - 1 gave 6.56 t ha - 1 grain yield of Sorghum .The interaction between two planting system non - significant on almost characteristics that mean both two system gave nearly results by effected addition nitrogen fertilizer
