Drought mitigation strategies in agriculture
The document discusses various drought mitigation strategies in agriculture, including crop management practices and soil/water conservation techniques. It begins with introducing the concepts of drought and its classification. Key mitigation strategies through crop management include selecting drought tolerant crops/varieties, seed hardening, and proper sowing times. Soil/water conservation techniques involve in-situ moisture conservation, water harvesting structures, mulching, anti-transpirants, and modern irrigation methods. The document concludes by discussing some long-term strategies to mitigate drought such as contingency crop planning and long-range weather forecasting.
1. Drought and its mitigation strategies
in agriculture
SEMINAR
on
COLLEGE OF AGRICULTURE, DEPARTMENT OF AGRONOMY
PRESENTED BY:
Soumya Ranjan Bhuyan
I.D No.-160111022
MAJOR ADVISOR
Dr. Manish Bhan
Asst. Professor
Agronomy
SEMINAR INCHARGE
Dr.M.L Kewat
Professor,Agronomy
2. Sequence of presentation
Introduction
Concept of drought
Mitigation techniques
Mitigation through crop management practices
Soil and water conservation techniques
Conclusion
6. Drought is a situation when the actual seasonal rainfall is deficient
by more than twice the mean deviation (Ramdas,1960)
Drought is defined by deviation from the normal rainfall, it can
happen in all rainfall regions. It also occurs in high rainfall area
but severity or frequency may vary.
Drought is considered to be a strictly meteorological phenomenon.
It is also a complex phenomenon whose severity depends on the
precipitation amount, its time and space distribution, evapo-
transpiration and on hydrological factors.
Definition
7. Classification of drought
Meteorological drought: It is defined as a situation when there is a
25% decrease in average rainfall for a given period of
time(IMD,Pune)
Hydrological drought: Depletion of surface water and consequently
drying of reservoirs, tanks etc. It results in deficiency of water for
all sectors using water.
Agricultural drought: It is the result of soil moisture stress due to
imbalance between available soil moisture and evapotranspiration
demand of a crop.
Socio-economic drought: This is associated with the supply &
demand of some economic goods. This drought should be linked
hot only to precipitation but also trends of fluctuations in demand.
9. o Shortage of water
o Desertification
o Death of livestock
o Lack of water for irrigation
o Reduced crop yield
o Migration of people
o Scarcity of seed
Consequence of drought
10. Effects of drought on plants
o Loss of turgidity
o Photosynthesis
o Increase in number of stomata
o ABA accumulation
o Rolling and wilting of leaves
o Reduced tillering
o Forced maturity
o Reduction in productivity
11. Table 1: Economic yield reduction by drought stress in some
representative field crops
Crop Growth stage Yield reduction
Barley Seed filling 49 – 57%
Maize Grain filling 79 – 81%
Maize Reproductive 63 – 87%
Maize Vegetative 25 – 60%
Rice Reproductive (severe stress)
53 – 92%
Dryland farming - Crops and Techniques for Arid Regions
-R. Crosswell and F.W. Martin
12. Drought stress resistance mechanism in plants
Plants optimize the morphology, physiology and metabolism of
their organs and cells.
The reactions of the plants to water stress differs significantly at
various organizational levels depending upon intensity and
duration of stress as well as plant species and its stage of
development
13. Adaptations
Drought escape Drought resistance
Drought toleranceDrought avoidance
Water conservation More water uptake
Mitigating drought High tolerance to drought
Principles of agronomy Yellamanda Reddy and Shankara Reddy
14. Stress avoidance : is the ability of plant to maintain high tissue water
potential under drought conditions.
Stress tolerance : is a plant’s stability to maintain its normal
functions even at low tissue water potentials.
Stress resistance
Stress
tolerance
Stress
avoidance
15. Stress avoidance is usually achieved through morphological
changes in the plant :
Reduced stomatal conductance
Decreased leaf area
Development of extensive root systems
Increased root/shoot ratios
Stress tolerance is achieved by mitigating stress and high
degree of tolerance by plants.
17. Mitigation by crop management practices
Selection of crops/varieties
Seed hardening
Sowing of crops
18. Selection of crops/varieties
Short duration
Early vigour
Deep root system
Dwarf plant with erect leaves and stems
Moderate tillering
Lesser period between flowering and maturity
Moderate dormancy
Wider adoptability
Source-Venketeshwarlu,2009.Indian Journal of Agricultural Science
19. Relative drought tolerant crops
RABI KHARIF LEGUMES
• Oats
• Barley
• Triticale
• Sorghum
• Pearl millet
• Kodo millet
• Green gram
• Black gram
• Niger
•Soybean
•Groundnut
•Chickpea
•Cowpea
•Pigeon pea
20. • Pearl millet: CZIC 923,HHB 67,HHB 68,GHB 183,
GHB 1399,etc
• Cluster bean: Maru guar, FS 277,HG 75, HG
182,I-IGS 365,RGC 936, PLG119, PLG 85,
Suvidha, Navcen,etc
• Mung bean: Asha,K 851,RMG 131,etc
• Moth bean: RMO 40,Marp moth,Jadia,
Jawala,PCMO 880,T 88, CAZRI moth-l,etc.
Relatively drought tolerant crop varieties
Source-CAZRI,2000 .Strategy to combat drought and famine in the Indian arid zone
21. Seed hardening
Seed hardening:
Seed hardening refers to the technique of subjecting seeds to
soaking in water or appropriate chemical solutions and drying
in shade.
It helps the plant to survive during initial moisture stress
conditions.
23. Management at sowing
Time of sowing
An increasing in yield has been found by advancing the date of
sowing of kharif and rabi crops.
Advantages
o Better moisture availability
o Good seedling vigour
o Longer growing season
25. Soil and water conservation methods
In-situ moisture conservation practices
Water harvesting structures
Mulching
Anti-transpirants
Adopting modern irrigation techniques
26. In-situ moisture conservation practices
Land shaping (if the soil depth permits), contour cultivation, field/contour
bunding, tie ridging , digging of trenches, ridges and furrow system of
sowing, raised on sunken beds are important practices for conserving and
managing rain water for realising higher productivity.
Compartmental bunding
Conservation furrow
Broad bed and furrow
Ridges and furrow
Contour bunding
Graded bunding
Dead furrow
Inter plot rainwater harvesting
27.
28. Performance of chickpea varieties as influenced by compartmental bunding at
farmers fields
Bellary Patil et al.,(2015)
29. TREATMENTS 30 DAS 60 DAS 90 DAS 120 DAS 150 DAS AT HARVEST
Broad Bed and Furrow
(BBF)
30.67 28.01 30.19 26.72 21.96 13.80
Farmer Practice (Flat
bed-FB)
23.59 24.92 25.44 23.82 19.16 11.94
S.Em+ 0.98 0.07 0.13 0.19 0.09 0.22
CD (P=0.05) 5.94 0.45 0.80 1.13 0.55 1.36
Table 6 : Soil moisture content (%) as influenced in- situ moisture conservation
practices at 45-60 cm soil depth
Alisaheb et al,(2015)
30. Water harvesting structures
Water harvesting is the process of collecting rainfall and/or runoff
from a larger catchments area to be used in a smaller target area
(Oweis et. al., 1999). The collected runoff water may be either
directly applied to an adjacent field as supplemental life saving
irrigation of crops during moisture stress condition.
Some of the water harvesting structures are:
• Cisterns/ tankas/ kund
• Khadin
• Village ponds (Nadis/ tobas)
• Series of check dams on natural streams
• Percolation tanks
31. Cisterns/ tankas/ kund
Underground storage cisterns/ tanka /kund is the most common rainwater harvesting system
in the Indian arid zone.Tanka is constructed by digging a circular hole of 3.00 to 4.25 m
diameters and plastering the base and sides with 6-mm thick lime mortar or 3mm thick
cement.
Khadin:
Khadin system of water harvesting and moisture conservation is well suited in deep soil plots
surrounded by some sort of natural catchment zone. Even during severe drought years,
khadins may be used for getting a successful crop on stored soil profile moisture.
32. Village ponds (Nadis/ tobas):
Nadis /tobas are small to medium sized excavated
or embanked village ponds, for harvesting
precipitation. These ponds can provide water for life
saving irrrigation to crop during drought stress.
Check dams:
In this system the artificial recharge is made to
restrict the surface run off through streams and by
making additional water available for percolation.
Percolation tanks:
Percolation tanks are generally constructed on the
small streams or rivulets with adequate catchment
for impounding surface runoff. These tanks are used
entirely for recharging the aquifer through
percolation
33. MULCHING
o Any material used (spread) at surface or vertically in
soil to assist soil and water conservation and soil
productivity is called much. And process of applying
mulches to soil is known as mulching.
o Mulching helps in conserving moisture, lowering soil
temperatures around plant roots, reducing weed
growth, etc thus helps crops during moisture stress
conditions.
34. Types of mulches
1.Plastic films:
They help in maintaining higher water content in
soil resulted from reduced evaporation, induced
infiltration, reduced transpiration from weeds or
combination of all these factors.
Examples-Polythene, polyvinyl,etc.
2.Crop residues or stubble mulch:
Crop residues and other plant waste products corn,
and sawdust) are widely used as mulch. These
materials are cheep and often readily available. The
permit water to enter in the soil easily, when
maintain at adequate level. These materials result
in increased water content and reduced
evaporation.
Examples- Straw, cloves, leaves,etc.
35. 3.Saw dust mulch:
Mulching with sawdust is a common practice.
Sawdust is acidic, making it a good mulch choice
for acid-loving plants.They have high water
absorption capacity.
4.Soil or Dust mulch:
If the surface of the soil is loosened, it acts as
mulch for reducing evaporation. This loose
surface of soil is called soil mulch or dust mulch.
Inter-culturing creates soil mulch in growing
crops and helps in closing deep cracks in
Vertisols.
5.Vertical mulch:
Vertical mulch is a technique which consists of
digging suitable trenches across the slope and
thus making more surface are a available for
water absorption.
Fig. Vertical mulching
Fig. Saw dust mulching
37. ANTI-TRANSPIRANTS
Anti-transpirants are the materials or chemicals that applied to
transpiring plant surfaces for reducing water loss from the plant. The
purpose of ATs is to maintain the growth and productivity under
stress conditions and it is never recommended for high productivity /
unit area.
The severity of intermittent drought of 6-10 days during critical
stages of the crop can reasonably be avoided by the use of
antitranspirants and thus crops can be save
Mainly four types of anti-transpirants:
1. Stomatal closing type
2. Film forming type
3. Reflectance type
4. Growth retardant
38. Stomatal closing type:
Most of the transpiration occur through the stomata on the leaf surface. They induce
stomatal closing or decrease size and number of stomata which subsequently reduce the
photosynthesis.
Examples:
• Phenyl Mercuric Acetate (PMA)
• Atrazine
Film forming type:
Plastic and waxy material which form a thin colourless film over the leaf surface and result
in a physical barrier. These glossy films then reduce water loss on plants while at the same
time allow them to breathe normally.
Examples:
• Hexadecanol (Higher alcohols)
• Cetyl alcohol
• Methanol
• Paclobutrazol
• Brassinolide
• Resorcinol
39. Reflecting type:
They are white materials which form a coating on the leaves and increase the leaf
reflectance (albedo). By reflecting the radiation, vapour pressure gradient and thus reduce
transpiration.
Examples:
• Kaoline(5%)
• China Clay
• Calcium bicarbonate
• Lime water
Growth retardant:
These chemicals reduce shoot growth and increase root growth and thus enable the plants
to resist drought. They may also induce stomatal closure.
Examples:
• cycocel
40. Modern irrigation techniques
Sprinkler and drip irrigation methods are most suitable moisture stress
conditions. These methods help in water conservation. The conveyance losses
of water are practically negligible, and risk of soil erosion is low as the
application rate is low.
Sprinkler system is most suitable for narrow-spacing crops grown on undulating
light textured soils. The drip irrigation system is not affected by high wind velocity
as it applies water directly in the root zone. This method of irrigation is more
suitable for wider spacing crops and orchards. As the irrigation is given directly
near the root zone in drip system and whole soil surface is not wetted. wasteful
loss of water is minimized.
41. Contingency crop planning
Late onset of monsoon :
Transplanting
Alternate crops/varieties
Dry spells during crop periods :
Ratooning and thinning
Mulching
Spraying of urea(2%)
Weed control
Water harvesting and life saving irrigation
Early withdrawal of monsoon :
Harvesting at physiological maturity
Short duration varieties
Strategies adopted for mitigating dry spells during crop periods
can be done
S.R Reddy, Principles of Agronomy
43. Long-range forecast :
It is in purview of IMD and accurate oceanographic pre-monsoon
conditions.Besides, date of onset and withdrawal of monsoon, accurate
forecast about amount and distribution of rainfall in ensuing kharif
season would be of great value for planners as well as farmers to
develop contingent plans, rather a all season weather coat, for
drought.as well as floods.
IRS P-4 satellite with Oceansat OCM, MSMR sensor may prove of
great value in studying ocean situation. Great emphasis is to be laid in
future on long-range forecasts to combat drought.
These forecasts are given for the benefit of farmers for planning their
agricultural operations and crop selection and for planners for advance
planning in case of an anticipated flood or drought
Source- CAZRI,2000. Strategy to combat drought and famine
44. ALTERNATE LAND USE SYSTEM
Practicing alternate land use such as agro-forestry, agro-
horticulture and silvi-pasture would provide long-term
drought proofing in the Indian arid zone.
45. • Crop improvement for drought tolerance or escape, seed priming,
early sowing, soil conservation practices including tillage which
conserve moisture, in-situ moisture conservation practices and
water harvesting and use of antitranspirants and reflectants are
some of the mitigation strategies
• Breeding for drought resistance crop varieties i.e development of
transgenic plants for drought tolerance
• Adoption of long term strategies like integration of small
reservoirs with major reservoirs, integrated basin planning, etc.
• Long range rainfall forecast can prove as a warning tool for
drought mitigation
Conclusion