Resource conservation technology.ppt
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About This Presentation
This ppt is very useful for natural resource management students
Slide Content
Acharya Narendra Deva
University Of Agriculture And
Technology, Kumarganj,
Ayodhya,UP.(224229)
SEMINAR ON
Resource conservation technologies for
higher productivity-An Indian
perspective
PRESENTED BY : Deepak KumarDwivedi
and
Gayatri Turkar
MSc. 1
st
year (2
nd
sem.)
University Of Agriculture And
Technology, Kumarganj,
Ayodhya,UP.(224229)
SEMINAR ON
Resource conservation technologies for
higher productivity-An Indian
perspective
PRESENTED BY : Deepak KumarDwivedi
and
Gayatri Turkar
MSc. 1
st
year (2
nd
sem.)
OUTLINE
•Introduction
•Why RCT??
•Future challenges in Indian agriculture
•CA vs RCTs
•Components of RCT
•Various RCTs used in land management
•RCTs used in crop production
•Research findings
•Conclusion
•Introduction
•Why RCT??
•Future challenges in Indian agriculture
•CA vs RCTs
•Components of RCT
•Various RCTs used in land management
•RCTs used in crop production
•Research findings
•Conclusion
Introduction
Present Scenario of Indian Agriculture. sourceAgri. Data book 2021
S.no
.
Classification 1950-51 2020-21
1 Geographical Area(mha) 328.73 328.73
2 Total Forest Area(%) 14.2 21.67%
3 Net Area Sown(mha) 118.75 140.13
4 Area sown more than once(mha)13.15 58.3
5 Gross cropped area(mha) 131.89 200.2
6 Cropping intensity 111.07 143.6
7 Net irrigated area 20.85 68.64
8 Gross irrigated area 22.56 96.46
9 Annual Irrigation intensity 108.20 140.23
10Total NPK consumption (kg/ha)4.21 134.07
11Per capita land availbility(ha)0.91 0.11
Present Scenario of Indian Agriculture. sourceAgri. Data book 2021
S.no
.
Classification 1950-51 2020-21
1 Geographical Area(mha) 328.73 328.73
2 Total Forest Area(%) 14.2 21.67%
3 Net Area Sown(mha) 118.75 140.13
4 Area sown more than once(mha)13.15 58.3
5 Gross cropped area(mha) 131.89 200.2
6 Cropping intensity 111.07 143.6
7 Net irrigated area 20.85 68.64
8 Gross irrigated area 22.56 96.46
9 Annual Irrigation intensity 108.20 140.23
10Total NPK consumption (kg/ha)4.21 134.07
11Per capita land availbility(ha)0.91 0.11
S. no.Commodities 1951 2019-20 adv.
Est
% increase
1 Food Grains 50.83 291.95 6.74
2 Pulses 8.41 22.08 3.92
3 Total oil seeds 5.61 34.19 6.56
4Sugarcane 57.05 107.19 20.24
5Milk 17.0 184 8.45
6Fish 0.75 15 11.34
7Eggs 18.30 100 5.43
8Meat 1.9 10.34 5.65
Source-The Hindu
Present agriculture production scenario in India
(in mt.)
Est
% increase
1 Food Grains 50.83 291.95 6.74
2 Pulses 8.41 22.08 3.92
3 Total oil seeds 5.61 34.19 6.56
4Sugarcane 57.05 107.19 20.24
5Milk 17.0 184 8.45
6Fish 0.75 15 11.34
7Eggs 18.30 100 5.43
8Meat 1.9 10.34 5.65
Source-The Hindu
Present agriculture production scenario in India
(in mt.)
In times to come, Indian agriculture will meet the
requirements of food security and rapidly diversify itself.
Indian agriculture is already increasingly demand driven.
This will accelerate in the future.
It has been argued on various occasions that agricultural
diversification in India is basically driven by domestic
demand.
Population and Income Growth will give us the base for
demand. Decadal Growth of cereal demand is 13 per
cent.
On the other hand growth of demand of fruits and
vegetables, eggs, chicken and milk is much higher.
The FAO note that according to popular statistics India is
less urbanized, but they point out that:
“On the other hand, what constitutes “rural” is in fact
somewhat subjective and what is considered urban or
rural varies considerably among countries.
FUTURE OF INDIAN
AGRICULTURE
FOOD SECURITY
DEMAND
MARKETS AND STRATEGIES
requirements of food security and rapidly diversify itself.
Indian agriculture is already increasingly demand driven.
This will accelerate in the future.
It has been argued on various occasions that agricultural
diversification in India is basically driven by domestic
demand.
Population and Income Growth will give us the base for
demand. Decadal Growth of cereal demand is 13 per
cent.
On the other hand growth of demand of fruits and
vegetables, eggs, chicken and milk is much higher.
The FAO note that according to popular statistics India is
less urbanized, but they point out that:
“On the other hand, what constitutes “rural” is in fact
somewhat subjective and what is considered urban or
rural varies considerably among countries.
FUTURE OF INDIAN
AGRICULTURE
FOOD SECURITY
DEMAND
MARKETS AND STRATEGIES
“RESOURSE CONSERVATION TECHNOLOGY
REFERS T O THOSE PRACTICE WHICH
ENHANCES RESOURSE OR INPUT -USE
EFFICIENCY IS KNOWN AS RCT.”
RCT.”
WHAT IS RCT
A resource is any natural or artificial substance or
energy which can be used for the benefits of mankind.
Natural resources are those which exist in the
environment naturally, that is, they are not created by
humans. They are soil, water, sunlight, the wind, plants,
coal etc.
To support life by supporting ecological balance
To ensure that the future generations will be able to
access the resources.
To preserve the biodiversity.
To make sure human race survives.
WHY RCT
REFERS T O THOSE PRACTICE WHICH
ENHANCES RESOURSE OR INPUT -USE
EFFICIENCY IS KNOWN AS RCT.”
RCT.”
WHAT IS RCT
A resource is any natural or artificial substance or
energy which can be used for the benefits of mankind.
Natural resources are those which exist in the
environment naturally, that is, they are not created by
humans. They are soil, water, sunlight, the wind, plants,
coal etc.
To support life by supporting ecological balance
To ensure that the future generations will be able to
access the resources.
To preserve the biodiversity.
To make sure human race survives.
WHY RCT
FUTURE CHALLENGES IN INDIAN
AGRICULTURE :-
SUSTAINABILITY
BIODIVERSITY
LAND DEGRADATION
SOIL FERTILITY
GROUND WATER
DEPLITION
CLIMATE
CHANGE/GHGs
FOOD SECURITY
YIELD OPTIMIZATION
QUALITY ASURANCE
DOUBLE FARMER’S
INCOME BY 2022
AGRICULTURE :-
SUSTAINABILITY
BIODIVERSITY
LAND DEGRADATION
SOIL FERTILITY
GROUND WATER
DEPLITION
CLIMATE
CHANGE/GHGs
FOOD SECURITY
YIELD OPTIMIZATION
QUALITY ASURANCE
DOUBLE FARMER’S
INCOME BY 2022
Source: Agriculture Research Data Book (2013)
S.
no.
Degradation forces Area (million ha)
1Floods 40
2Non –reclaimable for Agriculture use 22
3Acidic soils 25
4Sodicity 3.6
5Salinity 5.5
6Shifting and gullies 5
7Ravines and gullies 4
8Waterlogging 8.5
9Riverine and torrent lands 2.75
AREA AFFECTED BY VARIOUS DEGRADATION FORCES IN INDIA
S.
no.
Degradation forces Area (million ha)
1Floods 40
2Non –reclaimable for Agriculture use 22
3Acidic soils 25
4Sodicity 3.6
5Salinity 5.5
6Shifting and gullies 5
7Ravines and gullies 4
8Waterlogging 8.5
9Riverine and torrent lands 2.75
AREA AFFECTED BY VARIOUS DEGRADATION FORCES IN INDIA
Minimum soil
disturbance
Maintenance of
a permanent soil cover.
Crop diversification
Conservation Agriculture-CA
CA is based on integrated management of soil, water and agricultural resources in
order to reach the objective of economically, ecologically, and socially sustainable
agriculture production. It relies on three major principle.
-Jat et. al
CA Vs RCTs
disturbance
Maintenance of
a permanent soil cover.
Crop diversification
Conservation Agriculture-CA
CA is based on integrated management of soil, water and agricultural resources in
order to reach the objective of economically, ecologically, and socially sustainable
agriculture production. It relies on three major principle.
-Jat et. al
CA Vs RCTs
“ALL THE CA TECHNOLOGIES IS CALLED AS RCTs, BUT ALL THE RCTs MAY NOT BE CA.”
Contd.
RCTs may not be follow all the three principles of CA that is clarified in case of
laser land leveling which is not feasible in residue condition.
Contd.
RCTs may not be follow all the three principles of CA that is clarified in case of
laser land leveling which is not feasible in residue condition.
LAN
D
NUTRIEN
T
CROPS
IRRIGATIO
N
RCT’s FOR
COMPONENTS OF RCT’S WHICH ARE USED IN
AGRICULTURE
D
NUTRIEN
T
CROPS
IRRIGATIO
N
RCT’s FOR
COMPONENTS OF RCT’S WHICH ARE USED IN
AGRICULTURE
LaserLandLeveling
It alter fields having
a constant slope of 0 –
0.2%.
Usinglaserequippeddrag
bucketwhichallowsthe
landsurfacesmoothening
within±2mmfromits
averageelevation.
Helping in saving irrigation
water up to 20 -30%.
Jat et al., 2011
Various RCTs which can be apply
in land management
It alter fields having
a constant slope of 0 –
0.2%.
Usinglaserequippeddrag
bucketwhichallowsthe
landsurfacesmoothening
within±2mmfromits
averageelevation.
Helping in saving irrigation
water up to 20 -30%.
Jat et al., 2011
Various RCTs which can be apply
in land management
Zero Tillage Technology
It is an extreme from of minimum tillage.
Primary tillage is completely avoided and secondary tillage is restricted done only in
the row zone.
It is more related to with less than 30% of soil disturbance.
In RWCS by this technology saves 70-80% time as well as increases 15-20 % wheat
yield.
Cut down the dose of diesel around 35l-45l per hectare of land.
Dr. Mahesh et. al.
It is an extreme from of minimum tillage.
Primary tillage is completely avoided and secondary tillage is restricted done only in
the row zone.
It is more related to with less than 30% of soil disturbance.
In RWCS by this technology saves 70-80% time as well as increases 15-20 % wheat
yield.
Cut down the dose of diesel around 35l-45l per hectare of land.
Dr. Mahesh et. al.
Itisamachinethatcansow
seedsandfertilizerinasingle
operationattherightplace
withoutanykindoftillingand
soildisturbance.
Thismachinecanwork
easilywitheverytypeofcrop
residuewithaloadof10-12
toneswithoutanyproblem.
Ithas9toneswhichmeans
thatitcanseedninerowsin
oneoperation.
Itneedsaminimumof45HP
doubleclutchtractorandits
weightaround750kg.
Thismachinecancover10-
15hectares.
(Chaudharyet.al.,2016)
Happy Seeder Technology
seedsandfertilizerinasingle
operationattherightplace
withoutanykindoftillingand
soildisturbance.
Thismachinecanwork
easilywitheverytypeofcrop
residuewithaloadof10-12
toneswithoutanyproblem.
Ithas9toneswhichmeans
thatitcanseedninerowsin
oneoperation.
Itneedsaminimumof45HP
doubleclutchtractorandits
weightaround750kg.
Thismachinecancover10-
15hectares.
(Chaudharyet.al.,2016)
Happy Seeder Technology
Bed Planting Technique
It is the method
wherecultivationof crops is done
on raisedbeds.
It has the potential to conserve
significant quantities of water
up to 30-50%.
Fertilization practices are also
easily performed by trafficking
in the furrow bottoms.
Reduced seed rates, conserved
rainwater, easy facilitated
mechanical weed control,
minimized lodging in crops.
(Gupta et. al.)
It is the method
wherecultivationof crops is done
on raisedbeds.
It has the potential to conserve
significant quantities of water
up to 30-50%.
Fertilization practices are also
easily performed by trafficking
in the furrow bottoms.
Reduced seed rates, conserved
rainwater, easy facilitated
mechanical weed control,
minimized lodging in crops.
(Gupta et. al.)
RCTs for nutrient management Site Specific Nutrient
Management
SSNM provides an approach for
‘feeding’ rice with nutrients as
needed Make optimal use of
existing nutrients, such as from
soil, residues, and manures.
Feeding
Crop needs!
1-Establish a yield target –the crop’s
total needs.
2-Effectively use existing nutrients.
3-Fill deficit between total needs
and indigenous supply. -
(Walker et.al)
Management
SSNM provides an approach for
‘feeding’ rice with nutrients as
needed Make optimal use of
existing nutrients, such as from
soil, residues, and manures.
Feeding
Crop needs!
1-Establish a yield target –the crop’s
total needs.
2-Effectively use existing nutrients.
3-Fill deficit between total needs
and indigenous supply. -
(Walker et.al)
It is the Tools for the Need and Assessment
of Nitrogen in Paddy ,maize, sugarcane,
potato andvegetable crops.
It is based on the leaf color.
The intensity of the leaf color is indicative
of the amount of nitrogen.
(Nachimuthu et.al.,2007)
Leaf Color Chart
of Nitrogen in Paddy ,maize, sugarcane,
potato andvegetable crops.
It is based on the leaf color.
The intensity of the leaf color is indicative
of the amount of nitrogen.
(Nachimuthu et.al.,2007)
Leaf Color Chart
Green Seeker
Itisanintegratedopticalsensing,variablerate
application&mappingsystemthatmeasurescrop's
nitrogenrequirements.
Yieldpotentialforacropisidentifiedusinga
vegetativeindexknownasNDVI(normalized
differencevegetationindex)andanenvironmental
factor.
ThetechnologywasdevelopedatOklahomaState
University,USAandlicensedtoNTechIndustriesin
2001(http://www.ntechindustries.com).
Itoffersamoreefficientandprecisewaytomanage
cropinputi.e.nitrogen.
Nitrogen(N)recommendationbasedonyield
potentialandtheResponseIndex(RI).
TheGreenSeekerestimatestherightamountofNat
thecriticalstagesofcropgrowth.
Green Seeker
Itisanintegratedopticalsensing,variablerate
application&mappingsystemthatmeasurescrop's
nitrogenrequirements.
Yieldpotentialforacropisidentifiedusinga
vegetativeindexknownasNDVI(normalized
differencevegetationindex)andanenvironmental
factor.
ThetechnologywasdevelopedatOklahomaState
University,USAandlicensedtoNTechIndustriesin
2001(http://www.ntechindustries.com).
Itoffersamoreefficientandprecisewaytomanage
cropinputi.e.nitrogen.
Nitrogen(N)recommendationbasedonyield
potentialandtheResponseIndex(RI).
TheGreenSeekerestimatestherightamountofNat
thecriticalstagesofcropgrowth.
NNANOFERTILIZERS
UseofNanofertilizers
Nanofertilizerreferstoaproductthatdeliversnutrientstocropsinoneofthreeways:
1.ThenutrientcanbeencapsulatedinsideNano-materialssuchasnanotubesorNano
porousmaterials
2.coatedwithathinprotectivepolymerfilm
3.deliveredasparticlesoremulsionsofnanoscaledimensions.
4.Slow,targeted,efficientreleasebecomespossible.
5.Insomecases,thenanoparticlesitselfcanbeused.
Examples-
Neem coated fertilizer
Sulphur coated fertilizer
Polymer coated fertilizer
UseofNanofertilizers
Nanofertilizerreferstoaproductthatdeliversnutrientstocropsinoneofthreeways:
1.ThenutrientcanbeencapsulatedinsideNano-materialssuchasnanotubesorNano
porousmaterials
2.coatedwithathinprotectivepolymerfilm
3.deliveredasparticlesoremulsionsofnanoscaledimensions.
4.Slow,targeted,efficientreleasebecomespossible.
5.Insomecases,thenanoparticlesitselfcanbeused.
Examples-
Neem coated fertilizer
Sulphur coated fertilizer
Polymer coated fertilizer
Various RCTs used in crop production.
SYSTEM OF RICE INTENSIFICATION
Planting young (8-10 days) old seedlings, planting a single seedlings per hills.
Wider space square planting 20cm to 20 cm.
Save water 15-30% and WUE about 5.7-5.8 kg/ha-mm.
(Das et. al.)
SYSTEM OF RICE INTENSIFICATION
Planting young (8-10 days) old seedlings, planting a single seedlings per hills.
Wider space square planting 20cm to 20 cm.
Save water 15-30% and WUE about 5.7-5.8 kg/ha-mm.
(Das et. al.)
Direct-seeded rice.
WRforraisingseedlingforonehalandis
about40–60ha-mm.
Waterneededforpuddlingandtransplanting
operationincaseofTPRrequire200–300
ha-mmofwater/ha.
(Sharma,2000)
TotalwatersavinginDSRis35-40%
comparedwithpuddledtransplantedrice.
(Saharawatetal.,2010)
Cropdiversification
Seedpriming(Farooqetal.,2006)
Useofosmo-protectants(Farooqetal.,
2007)
Applicationofsilicon(Ma,2004)
WRforraisingseedlingforonehalandis
about40–60ha-mm.
Waterneededforpuddlingandtransplanting
operationincaseofTPRrequire200–300
ha-mmofwater/ha.
(Sharma,2000)
TotalwatersavinginDSRis35-40%
comparedwithpuddledtransplantedrice.
(Saharawatetal.,2010)
Cropdiversification
Seedpriming(Farooqetal.,2006)
Useofosmo-protectants(Farooqetal.,
2007)
Applicationofsilicon(Ma,2004)
Modified Practices
Lower seed rate.
Seed treatment.
Sowing of seeds at
Proper spacing.
Control of water in the
Crop field.
Weeding / hoeing.
WHAT IS SWI ?
Outputs / Results
Higher ratio of tillers to
Mother seedlings.
Increased number of
Effective tillers / hill.
Enhanced panicle length &
Bolder grains.
Enhanced yield.
SWI can enhance grain yield as much as 25 per cent
sustaining the ever burgeoning population.
Minimum chemical use sustains soil ecology.
Only 25kg/ha seed needed.
(Anil Kumar et.al)
System of wheat intensification
Lower seed rate.
Seed treatment.
Sowing of seeds at
Proper spacing.
Control of water in the
Crop field.
Weeding / hoeing.
WHAT IS SWI ?
Outputs / Results
Higher ratio of tillers to
Mother seedlings.
Increased number of
Effective tillers / hill.
Enhanced panicle length &
Bolder grains.
Enhanced yield.
SWI can enhance grain yield as much as 25 per cent
sustaining the ever burgeoning population.
Minimum chemical use sustains soil ecology.
Only 25kg/ha seed needed.
(Anil Kumar et.al)
System of wheat intensification
Furrow irrigated raised
beds(FIRB)
InthismethodofsowingFIRBsare
madeandkeep15cmdistancerows
and55cmwidthand30cmwide
furrowbetweentwobeds.Itsave
about20–30%watersaving.
(Tanwaretal.,2014)
Trash mulching
Onanaverage20millionlittersof
water/haCoveringofsoilsurface
withtrashmulch,andisdoneby
uniform(10cmthick)spreadingof
trashininterrowspace.
Itsavewater3O-40%.
(Srivastava et. al.)
RCTs for irrigation
beds(FIRB)
InthismethodofsowingFIRBsare
madeandkeep15cmdistancerows
and55cmwidthand30cmwide
furrowbetweentwobeds.Itsave
about20–30%watersaving.
(Tanwaretal.,2014)
Trash mulching
Onanaverage20millionlittersof
water/haCoveringofsoilsurface
withtrashmulch,andisdoneby
uniform(10cmthick)spreadingof
trashininterrowspace.
Itsavewater3O-40%.
(Srivastava et. al.)
RCTs for irrigation
The soil dug up from the pit is kept in the periphery of the ring in 30 cm space
left in between the two pits.
Two budded sets placed like spokes in a cycle wheel more than 40% surface area
remains dry.
It save 30-40% water
(Singh et al.,1984)
Ring pit method of planting
left in between the two pits.
Two budded sets placed like spokes in a cycle wheel more than 40% surface area
remains dry.
It save 30-40% water
(Singh et al.,1984)
Ring pit method of planting
Itis sometimes called trickle irrigation
and involves dripping water onto the
soil at very low rates (2-20 litres/hour)
from a system of small diameter
plastic pipes fitted with outlets
calledemittersor drippers.
Water is applied close to plants so
that only part of the soil in which the
roots grow is wetted (Figure 60),
unlike surface and sprinkler irrigation,
which involves wetting the whole soil
profile.
Drip irrigation is most suitable for row
crops.
Drip irrigation is adaptable to any
farmable slope.
It has 85-90% WUE.
(Singh et. al)
Drip irrigation
and involves dripping water onto the
soil at very low rates (2-20 litres/hour)
from a system of small diameter
plastic pipes fitted with outlets
calledemittersor drippers.
Water is applied close to plants so
that only part of the soil in which the
roots grow is wetted (Figure 60),
unlike surface and sprinkler irrigation,
which involves wetting the whole soil
profile.
Drip irrigation is most suitable for row
crops.
Drip irrigation is adaptable to any
farmable slope.
It has 85-90% WUE.
(Singh et. al)
Drip irrigation
Research Findings
(Singh et. al)
Zero Tillage drilling Vs Conventional Tillage after Rice.
PARAMETERS ZERO TILL
DRILLING OF
WHEAT
CONVENTIONAL
SOWING OF
WHEAT
% SAVINGS
DUE TO ZERO
TILLAGE
TIME OF SOWING (ha)3.5 11.5 69.6
FUEL REQUIREMENT
(1ha)
14.0 38.3 635
OPERATIONAL
ENERGY (MJ) ha
810.9 2177.0 62.8
COST OF SEED
OPERATION(Rs. Ha)
665 1865 64.3
Rautaray (2002)
PARAMETERS ZERO TILL
DRILLING OF
WHEAT
CONVENTIONAL
SOWING OF
WHEAT
% SAVINGS
DUE TO ZERO
TILLAGE
TIME OF SOWING (ha)3.5 11.5 69.6
FUEL REQUIREMENT
(1ha)
14.0 38.3 635
OPERATIONAL
ENERGY (MJ) ha
810.9 2177.0 62.8
COST OF SEED
OPERATION(Rs. Ha)
665 1865 64.3
Rautaray (2002)
S.L
NO
DIFFERENT COST TRADITIONAL METHOD
(cost, yield, net income) ha
LCC METHOD
(cost, yield, net
income)
1General cost Rs-36872 Rs-36872
2nitrogen Rs-140kg/ha rs-1625/ha 120kg/ha rs-1337/ha
3labour 6la/ha rs-1800/ha 9la/ha rs-2700
4LCC Rs-110/LCC
5Total cost Rs-40297/ha Rs-41059/ha
6Yield of paddy 45Ql/ha rs-63000/ha 54Ql/ha rs-75600/ha
7straw 68Ql/ha rs-13600/ha 81Ql/ha rs-16200
8Total income 76600/ha 91800/ha
9Net income 36303/ha 50741/ha
10Extra benefits 14438/ha
Application of nitrogen in rice through Traditional method Vs
LCC method
Dr. Aggarwal
NO
DIFFERENT COST TRADITIONAL METHOD
(cost, yield, net income) ha
LCC METHOD
(cost, yield, net
income)
1General cost Rs-36872 Rs-36872
2nitrogen Rs-140kg/ha rs-1625/ha 120kg/ha rs-1337/ha
3labour 6la/ha rs-1800/ha 9la/ha rs-2700
4LCC Rs-110/LCC
5Total cost Rs-40297/ha Rs-41059/ha
6Yield of paddy 45Ql/ha rs-63000/ha 54Ql/ha rs-75600/ha
7straw 68Ql/ha rs-13600/ha 81Ql/ha rs-16200
8Total income 76600/ha 91800/ha
9Net income 36303/ha 50741/ha
10Extra benefits 14438/ha
Application of nitrogen in rice through Traditional method Vs
LCC method
Dr. Aggarwal
CONCLUSION
•RWCS occupies 13.5 Mha land on the IGP’s of SA including India.
•Green revolution not only degraded soil but also overexploited
groundwater.
•RCT’s which form the basis for CA has the only solution to save soil,
water and other natural resources.
•Zero tillage and happy seeder sowing technology in wheat, maize
and soybean not only save money and give similar or higher yields in
various crops but also reduce the weed problem and environmental
pollution.
•Laser land leveling, crop diversification, conservation agriculture, most
suitable irrigation and crop establishment method with appropriate
irrigation scheduling are the possible agronomic options for halting the
ground water decline in IGPs
•RWCS occupies 13.5 Mha land on the IGP’s of SA including India.
•Green revolution not only degraded soil but also overexploited
groundwater.
•RCT’s which form the basis for CA has the only solution to save soil,
water and other natural resources.
•Zero tillage and happy seeder sowing technology in wheat, maize
and soybean not only save money and give similar or higher yields in
various crops but also reduce the weed problem and environmental
pollution.
•Laser land leveling, crop diversification, conservation agriculture, most
suitable irrigation and crop establishment method with appropriate
irrigation scheduling are the possible agronomic options for halting the
ground water decline in IGPs
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