Major highlights :
• In the current season the monsoon is expected to be 85 - 88 per cent of the long term average (based on various forecasts).
• Out of 641 meteorological districts for which data are available, 224 districts (34.95 per cent) of the meteorological districts received excess/normal rainfall and the remaining 417 districts (65.05 per cent) received deficient/scanty rainfall during the season (as on 25th July 2012).
• The Kharif season crop (Paddy, moong, groundnut, chillies, cotton, soybean sugarcane and turmeric) have suffered and gross decline in area of each crops have been reported.
• In the current season, the most significant decline in area has been noticed in case of moong, which showed a decline of 35.13 per cent over last year and about 29.88 per cent over the drought year of 2009.
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Indian monsoon dynamics update 2012 13
1. Indian Monsoon Dynamics: An Outlook for 2012‐13
Introduction:
The contribution of agriculture in GDP is on consistent decline; it has shrunk from over 25.80 per cent
in 1996 to about 15.0 per cent in 2012 and is further expected to decline because of the lack of focus
on agriculture. This share is on consistent decline owing to lack of focus on agriculture over the years
and shrinking economic support. Indian agriculture still continues to real under the shadow of
monsoon. The lack of irrigation facilities continues to pressure the Indian agriculture even after 62
years of independence, since only 42.4 per cent of sown agricultural land is irrigated. The land of the
country is thus under tremendous pressure to feed over a billion population and provide employment
to about 65 per cent of the total work force. It is therefore very necessary that the monsoon should
commence on proper time and precipitation should be in adequate amount.
Indian agriculture is facing increased pressure on account of consistent population growth (Annual
1.53 per cent) and its extensive reliability on monsoon rains. For farmers, it is highly critical to know
when the onset will occur as this affects the timing of the planting of crops. If rainfall is deficient then
more than two-thirds of the seedlings can die. To prevent this, the prediction systems play a very
important role. Lack of irrigation facilities has thus resulted in decline of agricultural productivity and
slight variation in the amount and timing of monsoon has serious impact on the overall food grain
production of the country. In the recent times the impact of global warming has increased the
uncertainty in both time and amount of rains in the monsoon season. El-Nino and La Nina, a widely
acclaimed weather phenomenon, which alters the climate of more than half the planet, has recently
affected Indian monsoon in both time and amount of precipitation.
El Nino takes place when warmer than usual sea water exists off the coast of South America. El Nino
causes climate effects around the world. It occurs every two to five years and lasts for several months
or even a few years. The major effects of El Nino are increase in average ocean surface water
temperature in the region, heavy rains along the Pacific Coast, disruption of food chain of fish, birds
and sea mammals, tornadoes and thunderstorms in US and reduced number of hurricanes in the
Atlantic.
La Nina is the cooling of water in Pacific Ocean. It occurs every five to eight years and the lasting
period may be few month to couple of years. The major effect of La Nina are cooler sea
temperatures, high atmospheric pressure and drier air, brings up the nutrients from deep water and
proving feast to the marine fishes, birds and mammals, causes snow on the west coast, draught in
South East America and increased number hurricanes in the Atlantic. The significant effect of La Nina
on the Indian climate is not yet noticed, the El Nino affects the climate significantly.
The effect of El Nino on Indian monsoon had been drastic for the year 2009 and is expected to cast
adverse spell on to the monsoon of 2012-13. In the current season the monsoon is expected to be 85
- 88 per cent of the long term average.
In the current season the monsoon set in over Kerala about one week late than its normal date of 1st
June. The monsoon continues to be weak in spite of covering most parts of the country. Rating
agency CRISIL warned that a continuation of this situation in the remaining weeks of this monsoon
season would lead to a drought, maybe severe, in 2012. It termed the situation akin to 2009, when
India faced the worst drought in 30 years.
2.
Out of 641 meteorological districts for which data are available, 224 districts (34.95 per cent) of the
meteorological districts received excess/normal rainfall and the remaining 417 districts (65.05 per
cent) received deficient/scanty rainfall during the season (as on 25th July 2012). The operational long
range forecast for the seasonal rainfall over the country as a whole and over four homogeneous
regions except south peninsula have not been accurate. The forecast for August rainfall over the
country as a whole is not expected to be adequate owing to the recent development in the El-Nino
parameters in the Pacific Ocean.
Figure 1. Map of India Showing distribution of Rain Fall in monsoon season (2012-13)
Source: Indian Meteorological Department, Government of India
The above period (01 June – 25th July 2012) clearly showed that most of the agricultural areas are not
receiving sufficient rainfall. The Kharif season crop (Paddy, moong, groundnut, red chillies, cotton,
soybean sugarcane and turmeric) have suffered and gross decline in area of each crops have been
reported. The comparative study is been made between the monsoon and agriculture production in
2009 and 2012 to see the impact of monsoon on each crop.
31st August 2012 Trade & Commodity Intelligence Group, NCML Page 2
3.
The table following shows the comparative amount of precipitation in India and four major regions
for the year 2009 and 2012.
Table1. Region wise comparison of amount of rain received (Actual & LPA in mm)
2009-10 (Till 22nd July) 2012 – 13 (Till 18th July)
Region
Actual LPA % Deviation Actual LPA % Deviation
Northwest (NW) India 134.3 216.3 ‐38 114.3 187.8 -39
Central India 410.6 399.4 3 255.4 347.4 -26
South Peninsula 296.0 313.8 ‐6 218.6 283.1 -23
North East (NE) India 382.7 665.6 ‐43 578.9 613.5 -6
All India 298.7 368.8 ‐19 256.4 328.1 -22
*LPA is Long Period Average
Source: Indian Meteorological Department, Government of India
From the above table, it is clear that the monsoon of 2012 is developing in the same pattern as that in
the case of monsoon on 2009, which was deficient by about 19 per cent till 18th July. The monsoon is
currently deficient by 22 per cent. The direct impact of the deficiency in rainfall on the crops could be
seen, when the production of major crops in the country in the current year is compared to the
figures of the preceding years.
Table 2. Major crops Acreage in the monsoon season till 20th July 2012 (Lakh Ha)
Normal Kharif Change Change
Crops 23rd July '09 22nd July'10 20th July'11 20th July'12
Area as on date over 2011 over 2009
Rice 153.37 157.67 154.2 161.27 144.59 ‐10.34 ‐8.30
Maize 51.99 56.93 55.49 52.96 47.84 ‐9.67 ‐15.97
Tur 20.55 21.76 21.79 21.35 17.84 ‐16.44 ‐18.01
Urad 11.92 12.92 12.16 13.72 10.32 ‐24.78 ‐20.12
Moong 12.19 11.01 11.79 11.9 7.72 ‐35.13 ‐29.88
Soybean 71.88 81.53 80.96 90.33 86.2 ‐4.57 5.73
Cotton 90.03 80.63 97.01 92.45 83.74 ‐9.42 3.86
Source: Ministry of Agriculture, Govt. of India
The effect of monsoon rains in the food grains output of the country can be clearly seen from the
above table and figure. The monsoon in year 2011 was almost 105.00 per cent to the normal
monsoon in 2011-12 and most of the crops exceeded their estimated targets of production and as a
result we received a record food grain production of above 250 million tonnes for the first time. The
monsoon was declared as failure in the year 2009 by the central government and the effect of
deficient monsoon is clearly visible for the gap between the target and the expected production
levels in major crops. Since similar situation in the monsoon is seen in the recent times, there are
31st August 2012 Trade & Commodity Intelligence Group, NCML Page 3
4.
ample reasons for us to fear for the lower production. The comparative analysis of the sowing pattern
for 2012-13 to different monsoon years since 2009 shows that there has been a significant decline in
the area for different crops. The most significant decline has been noticed in case of moong, which
showed a decline of 35.13 per cent over last year and about 29.88 per cent over the drought year of
2009. Other significant declines were noticed in case of Urad, Tur, Rice and Maize. The low level of
sowing is significant as it has dropped below the levels of 2009, which has already been declared as
one on the worst draught years in the Indian history.
Figure 2. Major Statistics of Foodgrain Production and Stocks
In the above figure, an attempt has been made to find the link between the total foodgrains
production, the percentage of
The available data on rainfall indicate on drought perspective that – irrigated land and the stocks in
• 16% of the Country’s total area is drought prone and annually hand of the government to
about 50 million people in the country are exposed to the crisis cope up with the adverse
of drought; climatic/ production scenario.
• A total of 68% of sown area is subject to drought in varying The data represented in the
degrees;
above graph is between 1972
• 35% of area receives rainfall between 750-mm - 1125-mm and and 2010. The Red Ovals in the
is drought prone;
plot marks the drought year (as
• Most of drought prone areas lie in the arid (19.6%), semi-arid
(37%) and sub-humid (21%) areas of the country that occupy declared by All India Summer
77.6% of its total land area of 329 million hectares. Monsoon Rainfall, Department
• Annual Average Rainfall is 1160 mm in India. However, 85% of Agriculture & Cooperation,
is concentrated in 100-120 days (SW Monsoon) Ministry of Agriculture,
• 33%of area receives less than 750-mm rainfall and is chronically Government of India). The
drought prone;
Identified drought years are
• 21% area receives less than 750 mm rainfall (large area of 1972, 1974, 1982, 1985, 1986,
Peninsular and Rajasthan)
• Rainfall is erratic in 4 out of 10 years. 1987, 2002 and 2009. In almost
• Irrigation Potential is 140 Million Ha (76 MHa Surface + 64 MHa all the drought years the
Groundwater) production of foodgrains had
• Depletion of Ground water and limitation of surface water imply come down. The percentage
that not all net sown area is amenable to irrigation. irrigated land in the country is
• Per Capita Water availability is steadily declining due to increase almost constant (about 45 per
in population, rapid industrialization, urbanization, cropping cent) for the last 10 to 12 years.
intensity and declining ground water level. Problems are likely to
aggravate.
The foodgrains stocks in the
• Net Result – Inevitability of Drought in Some Part or Other. hand of the government has
also shown declining trend in
the corresponding draught
years.
The status of the foodgrain production in the drought years in comparison to the preceding normal
year on monsoon is shown in the following table.
31st August 2012 Trade & Commodity Intelligence Group, NCML Page 4
5.
Table: 2. Performance of foodgrains production in draught in comparison to non-drought years (%)
Drought Years Area % Irrigated Land Production Procurement Offtake Stocks
1972-73 ‐2.80 ‐3.62 ‐8.39
1974-75 ‐4.51 7.55 ‐4.85 ‐52.71 ‐2.01 ‐5.99
1982-83 ‐3.23 3.90 ‐2.92 8.35 13.86 0.27
1984-85 ‐3.54 3.13 ‐4.69 17.00 ‐13.43 29.62
1985-86 1.05 ‐1.59 3.26 4.26 30.28 ‐2.17
1986-87 ‐0.64 3.68 ‐4.89 ‐0.35 1.34 ‐6.25
2002-03 ‐7.83 ‐0.47 ‐21.78 ‐9.78 37.20 ‐55.50
2009-10* 0.15 ‐1.11 ‐8.13 ‐18.88 ‐44.16 26.65
Source: Based on figures from Ministry of Agriculture
From the above table it can be inferred that the production of foodgrains has declined in the drought
year. The growth of the irrigated area has been evenly paced with marginal dips in the drought years.
The pressure has been noticed in case of the procurement of foodgrains by the government agencies
which have declined in almost every drought. The Offtake from government agencies have shown a
consistent increase during the drought years. The major reason identified for the drought in the
country between 1972- 2002 is been the El-Nino (the basic description of which has been given in the
earlier text). Important geological facts regarding Indian drought has been mentioned in the following
text box which we feel is of prime importance if we have to discuss the overall performance of the
agriculture sector.
The pattern and the progress of monsoon and its comparison to the total foodgrain production over
the years in the country could be analysed from the following figure.
Figure 3. Progress of Foodgrain Production & Developments in Monsoon Rain Distribution
The food production trend over the years have been upside barring few down’s due to weather woes,
which is positive for the country. The major slump in the production was seen in 2002-03 which was a
severe drought year. The same trend was noticed for the year 2009-10. The point of concern is the
distribution of rainfall. From the above figure it is evident that the number of districts with normal to
excess rainfall is declining as the years are passing. If the same trend continues for another decade or
so the threat of drought occurring in the country would increase immensely and hence only 45 per
cent of the total cultivated area has good irrigation facilities, the Indian agriculture may be heading
towards much stiffer challenges.
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