This document discusses oilseed-based cropping systems and their impact on soil fertility. It provides tables summarizing research on different cropping systems combining oilseeds like groundnut, soybean, and sunflower with cereals. The tables show that integrated nutrient management with organic and inorganic fertilizers improves soil properties like organic carbon and available nutrients. Crop yields are also higher in systems receiving balanced fertilization. Overall, the document finds that combining organic sources, inorganic fertilizers, and biofertilizers in oilseed-cropping systems benefits productivity, soil quality, and farm economics in a sustainable manner.
2. OILSEED BASE CROPPING
SYSTEAMS
SUBMITTED TO: SUBMITTED BY:
Dr. H. M. VIRADIA JOSHI JIGARKUMAR R.
Associate Professor 2nd Sem. M.sc.(Agri.)
Dept. of Agronomy Reg.No-2010114038
N.M.C.A., N.A.U. Dept. of Agronomy
NAVSARI – 396 450 N.M.C.A., N.A.U.
NAVSARI- 396 45
3. Introduction
Oilseeds serve as rich source of food, feed, energy and
commerce. Oilseeds area and production in Gujarat state
constitute about 10.8 % and 14.5 % respectively in India.
As per the cropping pattern in Gujarat, oilseeds account
for about 23.4 % of GCA. Among the oilseeds, groundnut
(14.4%), castor (3.7%), rapeseed-mustard (1.7%),
sesamum (1.9%).
4. Soil fertility management is a set of agricultural
practices adopted to local conditions to maximize
the efficiency of nutrient and improve
agricultural productivity. Due to prolonged
cultivation of crops with recommended dose of
inorganic fertilizers alone, the productivity of
soil has gone down and time has come to
supplement to inorganic fertilizers with organics
and micro-nutrients to sustain the fertility and
productivity of the soils (Behera et al., 2007).
Keeping this in view it is essential to find out
proper fertility management and suitable oilseed
based cropping system for sustainable
production.
5. Area (ha), production ( tonnes) and productivity (kg/ha) of total
oilseeds during 2010-11 in major producing states
State Area (ha) Production (tonnes) Productivity
(kg/ha)
M.P 75,34,400 92,76,000 1231
Rajasthan 49,12,200 63,64,600 1296
Maharashtra 38,06,000 50,86,800 1337
Gujarat 24,52,000 27,05,000 1103
Andhra Pradesh 19,45,000 16,51,100 849
Karnataka 14,22,000 9,19,600 647
U.P 11,47,000 10,30,500 898
Haryana 580,200 9,93,100 1712
West bangle 732,100 8,50,700 1162
Tamilnadu 388,500 8,16,900 2103
India 2,64,84,400 3,09,41,200 1168
APEDA
6. What is cropping system?
cropping system It is an important component of
a farming system. It represents cropping pattern
used on a farm and their interaction with farm
resources, other farm enterprises and available
technology which determine their make up.
• Cropping pattern: The proportion of area
undervarious cropsat appoint of time in a unit
area. It indicates the yearly sequence and spatial
arrangement of cropsand following an area.
11. Important oilseeds based cropping system
followed in different states of India
States Cropping systems
Andhra Pradesh, Tamilnadu and
Karnataka
Rice-groundnut, Rice- sunflower, Rice-castor
Rajasthan Groundnut-wheat
Gujarat Groundnut + Castor, Paddy-Castor
Saurashtra ( Gujarat) Cotton-groundnut
Madhya Pradesh Soybean-wheat, groundnut-chickpea, Sorghum-safflower
Maharashtra Groundnut-safflower, Sorghum-safflower, Green gram-
safflower
Tamilnadu Pigeon pea + Groundnut.
West Bengal Maize-mustard, Jute-mustard
Haryana Rice-mustard
Punjab, Uttar Pradesh and Delhi,
parts of Bihar
Rice-mustard
12. Objectives of cropping system :
• Maximizing system productivity on annual basis
• Utilization of resources with higher efficiency by
considering various interactions and direct,
residual and cumulative effect in soil-plant-
environment system
• Intensive input use in relation to quality of
environment
• Sustainability of farm resources and environment
in long term perspective.
13. Benefits of cropping systems :
• Maintain and enhance soil fertility. Some crops are
soil exhausting while others help restore soil fertility.
• Enhance crop growth. Crops may provide mutual
benefits to each other.
• Minimize spread of disease.
• Control weeds. Crops planted at different times of the
year have different weed species associated with
them.
• Inhibits pest and insect growth.
• Increase soil cover.
• Use resource more efficiently.
• Reduce risk for crop failure.
• Improve food and financial security.
17. Table:1 Effect of nutrient management practices on yield and yield attributes of
soybean and wheat under soybean – wheat cropping system
Treatment Soybean Wheat
Seed Yield
(t/ha
Stover yield
(t/ha)
Pl. Height
(cm)
Seed Yield
(t/ha
Straw Yield
(t/ha)
Pl. Height
(cm)
Nutrient sources
CR 5 t/ha 1.33 3.88 60.7 3.65 8.58 94.8
FYM 5 t/ha 1.42 4.03 60.9 3.73 8.70 96.2
T1+T2+Zn
5 kg/ha
1.48 4.06 62.2 3.96 9.19 98.8
CD (P=0.05 0.09 0.28 1.47 0.12 0.36 1.81
Nutrient levels
50% RDF 1.37 3.98 61.5 3.76 8.68 94.9
100% RDF 1.55 4.35 62.7 3.99 9.05 105
CD (P=0.05 0.07 0.20 0.98 0.10 0.28 1.93
CR- wheat crop residues: RDF-i.e. Soybean- 30-33-33, wheat- 120-26-33 NPK kg/ha
IARI, New Delhi Shivkumar and Ahlawat (2008)
18. Table:2 Effect of organic with and without fertilizers on yield of
paddy and castor under paddy-castor cropping system
Treatment Paddy Grain
yield (kg/ha)
Paddy straw
yield (kg/ha)
Castor Seed
yield (kg/ha)
Fertilizer
Control 3079 4597 948
75 % RDF 4499 6541 1186
CD (P=0.05) 356 922 288
Organics
Control 2934 5182 934
FYM @ 20 t/ha 3881 5373 1129
Sugarcane trash @ 20t/ha 3497 4918 1074
Bio compost @ 20t/ha 4591 6354 1240
Green manuring with dhaincha 4042 6017 1058
CD (P=0.05) 747 986 105
RDF- Rice- 100-30-00 NPK kg/ha
Virdia et al. (2011)RRRS,Vyara
19. Table:3 Effect of nutrient management practices on
yield under groundnut based cropping system .
Treatment Groundnut pod
yield ( kg/ha)
Wheat grain
yield (kg/ha)
Sole groundnut 1070 0
Groundnut-wheat (100 % RDF) 1031 2389
Groundnut-wheat (50 % RDF) 980 2293
Groundnut-wheat (50 % RDF + 5t / ha FYM) 976 2608
Groundnut-wheat –greengram (100 % RDF) 930 2595
Groundnut-wheat- greengram (50 % RDF) 973 2326
Groundnut-wheat- greengram (50 % RDF + 5t / ha
FYM)
951 2721
CD ( P=0.05) 60 _
RDF-i.e. Groundnut- 12.5-25-00, wheat- 120-60-40 NPK kg/ha
Junagadh, Gujarat Jat et al. (2011)
20. Table:4 Effect of long term application of fertilizer and organic manure on yield
of soybean and wheat crop under soybean-wheat cropping system
Treatments Grain yields (t/ha)
Soybean wheat
Control 1.04 1.71
50 % NPK 1.20 3.38
100 % NPK 1.53 4.74
150 % NPK 1.56 4.88
100 % NPK+HW 1.47 4.54
100 % NPK+Zn 1.48 4.68
100 % NP 1.29 4.16
100 % N 1.11 2.05
100% NPK+FYM @ 15 t/ha 1.84 5.26
100% NPK-S 1.44 4.45
CD ( P=0.05) 0.25 .064
RDF-i.e. Soybean- 20-80-20, wheat- 120-80-40 NPK kg/ha
Jabalpur (MP) Sawarkar et al. (2013)
21. Table:5 Effect of different sunflower based cropping system on Soil
fertility (mean data of 5 years).
Cropping sequence Soil fertility status after 5 years of
experimentation (kg/ha)
N P2O5 K2O
Initial 270 19.2 291
Sunflower- sunflower 174 12.6 283
Fallow-sunflower 252 17.8 298
Greengram- sunflower 275 19.5 320
Soybean-sunflower 282 19.6 306
Groundnut-sunflower 289 18.9 315
Setaria- sunflower 243 16.7 296
Nandyal, AP Saila and Sridhar (2005)
22. Table:6 Effect of various soybean- based cropping
systems on soil fertility status
Treatment Soil organic
carbon (%)
Soil available nutrients (kg/ha)
N P2O5 K2O
Initial 0.53 154.2 12.77 530
Soybean- wheat 0.71 193.2 33.45 624
Soybean-
Mustard
0.68 184.3 25.66 598
Soybean-
Chickpea
0.62 187.4 20.78 598
Soybean-
Isabgol
0.57 169.3 17.77 575
SEm ± 0.02 4.5 1.61 8
CD ( P=0.05) 0.07 13.2 4.73 23
Bhopal, MP Ramesh et al. (2009)
23. Table:7 Effect of integrated nutrient management on soil properties
under soybean- onion cropping system .
Treatments pH EC
(dS m-1)
organic carbon
(%)
T1: Control 8.46 0.42 0.49
T2: 50% RDF + 50% N through FYM +
micronutrients as per soil test
8.37 0.34 0.60
T3: 1/3 N Through FYM, vermicompost and
neem seed cake
8.38 0.36 0.58
T4: T3 + trap crop (sunnhemp) 8.42 0.35 0.59
T5: T3 + Handweeding + IPM 8.41 0.37 0.59
T6: 50% N through FYM + Azotobactor + PSB 8.44 0.36 .057
T7:T3 + Azotobactor + PSB 8.41 0.37 0.59
T8: 100% NPK 8.40 0.35 0.54
CD (P=0.05) NS 0.02 0.03
RDF-i.e. Soybean- 50-75-00, onion- 100-50-50 NPK kg/ha
MPKV, Rahuri Khang et al. (2011)
24. Table:8 Effect of different sunflower based cropping sequences on
sunflower seed equivalent yield and economics (mean data of 5 years)
Cropping sequence Sunflower seed
equivalent yield
(kg/ha
Net returns
( Rs./ha)
B:C ratio
Sunflower- sunflower 1502 11964 2.13
Fallow-sunflower 675 4843 1.92
Green gram-
sunflower
1237 8202 1.79
Soybean-sunflower 1227 7489 1.69
Groundnut-
sunflower
1545 9766 1.72
Set aria- sunflower 1555 13176 2.45
CD ( P=0.05) 186 1732 0.24
Saila and Sridhar (2005)Nandyal,AP
25. Conclusion:
• From the foregoing discussion, it can be
inferred that combined application of organic
sources, inorganic sources and biofertilizers in
oilseeds based cropping system are found
beneficial to increase crop productivity,
system productivity, quality and economics.
• It also helps in improves soil fertility, physico-
chemical properties and biological properties
of soil.