1 Outline Introduction Methodology - NIDM

Outline Impact of Drought and Flood on Indian Food Grain Production

Introduction Methodology Observations in production and area Results and Discussion Conclusions

Ajay Singh 1, V.S. Phadke2 and Anand Patwardhan1 1

Shailesh J.Mehta School of Management, Indian Institute of Technology Bombay, Powai, Mumbai400076. 2 Department of Geography, University of Mumbai, Vidyanagari, Santacruz (East), Mumbai-400098.

Second India Disaster Management Congress New Delhi (4-6 Nov.’09)

Methodology

Introduction Agriculture provides livelihood to almost three fourth

population of India 62% of Cropped Area is dependant on Monsoon rainfall Contribution of Agriculture Sector to GDP is 17% The contribution of agriculture to GDP has decreased substantially since the independence but impact of sever droughts on GDP has remained 2 to 5 %. In view of climate change, it is important to assess the impact of climate extremes on agriculture.

Observations in food grain Production and Area

Drought and flood years have been identified from all India Monsoon Rainfall data. Drought and flood years are the years when rainfall falls outside mean minus standard deviation and mean plus standard deviation, respectively Percent loss has been calculated as (Pm-P)/Pm x 100% Pm: Maximum in 7 year window P: Value at particular year Moving average, correlation and regression have been calculated to get fluctuation, association and trend in the variables

Observations (cont.) Year Wise Dis tribution of % Share of Production of different Crops

Area and Production of Foo d Grain in India 140

50.00

200

45.00

100 150

80 60

100

40 area 20

Pro duct ion (Mil l T on n)

Area (M ill Hectare)

Production is increasing significantly in secular term while area after mid 80s declining Greater fluctuation in production than area In recent decade there is less fluctuation in production and area both than earlier decades

%share Rice

40.00

%share Wheat 35.00

%share Jowar 30.00

50

production

0

%share Bajra

25.00 0

1950

1955

1960

1965

1970

1975

1980

1985

1990

1995

2000

%share Maize

20.00

Year

Percent loss of the area and productionof food grain crop in India

15.00

%share Barley

10.00

%share Pulses

30.00

5.00

Area 25.00

production

0.00 1940

20.00

percent

250

120

1950

1960

1970

1980

1990

2000

2010

Ye a r 15.00

10.00

5.00

0.00 1950

1960

1970

1980

year

1990

2000

2010

Share of Rice to food grain has remained almost constant while that of wheat has increased phenomenal and consistent decrease in the share of other food grains

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Observations (cont.)

Observations (cont.)

Pe r ce ntag e Cov e rage of M ajor Cro ps und e r Irrigatio n

Correlation matrix Loss in Area (%) Area Residuals Loss in Production(%) Production Residuals AISMR (cm) Departure in AISMR from Normal(1961-90)

100 90

Rice

Percentage Coverage

80

W heat

70

Jowar

60

B ajra

50

Maize

Loss in Area (%)

Area Loss in Production AISMR Residuals Production Residuals (cm) (%)

1.00 -0.54 0.73

1.00 -0.23

1.00

-0.58

-0.16

-0.82

1.00

-0.68 -0.70

0.21 0.22

-0.71 -0.72

0.74 0.75

Departure in AISMR from Normal (1961-90)

1.00 0.99

1.00

40

•Summer monsoon is highly correlated with loss in production and area under food grain •Production has higher correlation than area

30 20 10 0 1940

1950

1960

1970

1980

1990

2000

2010

Year

Results

Impact on Kharif and Rabi Productions

During drought years, total food grain production decreased from that of the previous year up to 24% in 9 out of 11 events. During flood year, only 2 out of 8 events have reported decrease in total food grain production in India. During almost all drought events, kharif food grain production has decreased. All flood events have noticed increment in kharif food grain production over that of the previous year. All flood events have noticed the increment in rabi food grain production from that of the previous year. Almost 37% of drought event has depicted decrease in rabi food grain production.

Sr. No.

Flood Year

1

1970

Sr. No.

Flood Year

1

1956

Drought Year

Wheat 5.4

Bajra 7.3

Trend in Rabi Production (%)

10.54

6.33

2

1975

25.03

15.74

1983

27.65

5.90

4

1988

28.27

12.90

5

1994

0.67

7.83

6

1966

NA

NA

7

1968

-1.96

0.44

8

1972

-6.91

-8.99

-12.88

10.59

10

1979

-18.99

-13.69

11

1982

1974

-11.94

10.57

12

1985

0.86

6.83

13

1986

-5.92

-3.02

14

1987

-7.03

4.07

Results (cont.) Trend in Production of Crops (%)

Rice

Trend in Kharif Production (%)

3

9

Impact on various crops

Drought Year

Barley -16.3

Jowar 1.7

Maize

All Pulses

8.9

18.5

4.6

17.6

-10.3

2

1959

2.7

3.6

-9.8

0.9

-5.0

3

1961

3.1

9.7

11.3

11.7

-18.1

5.6

4

1970

4.4

18.6

50.7

2.5

-16.6

32.1

1.1

5

1975

23.1

19.7

75.5

1.8

-8.7

30.6

30.1

6

1983

27.5

6.3

50.5

-1.8

10.9

20.9

8.7

7

1988

24.0

43.9

26.4

8

1994

Proportion of Extreme Event Years showing Impact on Production of Different Crops

-7.4

17.2

135.8

8.1

-16.6

1.9

9.9

44.1

31.5

-21.4

-7.5

9

1951

3.5

-4.3

-9.6

-0.5

10.5

20.2

0.1

10

1965

-22.2

-15.2

-17.0

-5.5

-21.7

3.4

-20.0

11

1966

-0.5

9.5

19.2

-1.4

21.6

1.5

-16.0

12

1968

5.7

12.8

-26.8

-30.8

-2.5

-9.1

-13.9

13

1972

-8.9

-6.3

-26.1

-7.7

-9.7

25.3

14

1974

-10.1

10.7

-56.5

32.2

14.4

-4.1

0.1

15

1979

-21.3

-10.4

-29.1

-24.2

1.8

-9.7

-29.6

16

1982

-11.5

14.3

-7.4

-6.3

-10.9

-5.1

3.0

-10.5

5.5

-10.6

17

1985

9.4

6.8

-39.5

26.1

-21.3

11.7

18

1986

-5.1

-5.8

23.2

-14.9

-9.9

14.3

-12.4

19

1987

-6.1

4.2

-26.8

-4.6

32.8

-24.6

-6.4

Crop Rice Wheat Bajra Barley Jowar Maize All Pulses

Flood Events Drought Events Increase(%) Decrease(%) Increase(%) Decrease(%) 100.00 0.00 27.28 72.72 100.00 0.00 54.54 45.56 75.00 25.00 18.18 81.82 87.50 12.50 18.18 81.82 25.00 75.00 54.55 45.45 87.50 12.50 45.45 54.55 75.00 25.00 36.36 63.64

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Conclusions

Conclusions (cont.)

• Rabi food grain production has better adaptive capacity to drought than kharif food grain production. • All except jowar face flood events effectively. • Wheat and jowar perform relatively better during drought events. • Rice is most sensitive crop in respect to flood and drought. • In general Indian food grain production is more vulnerable to drought than flood. • Therefore drought management should be given especial and essential attention to ensure adequate and sustained food grain production.

• Rice is an important staple foodgrain that is the most sensitive to climate extremes, and needs better planning, management to meet future demand. • Enhancement of irrigation facility, forecasting of climate extremes well in time and technological development for suitable variety of crops to minimise the negative impacts of these extremes are required for food security and sustainable development.

Thank You

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