Maize Genetics Cooperation Newsletter vol 86 2012
MAIZE LANDRACES OF KASHMIR:
PRESENT STATUS AND FUTURE PROSPECTS
S.Najeeb,A.G.Rather,M.A.Zarger,M.A.Ahangar,F.A.Sheikh,G.A.Parray,Z.A.Bhat,P.A.Sofi,Subash,C.Kashap,
A.Ishfaq, Z.A.Dar, Mehfoza,H. And Z.A.Bardi
S-K. University of Agricultural Sciences & Technology of Kashmir (SKUAST-K)
Mountain Research Centre for field
Crops,Khudwani,Anantnag,192102
Globally
maize is the third most important crop. It is most important crop of United
States and Maxico as primary centre of origin. From this centre crop spread to
other non traditional areas and even to temperate belts of world and got
established as a new crop. Mexico has the highest diversity of maize germplasm
(Ortega, 2000), a large number and high percentage of campesinos, and
the highest direct, per capita, maize consumption in the world(Warman, 2001;
FIRA, 1998). In contrast to the situation in the United States, where hybrids
were essentially introduced in the early 1930s and occupied virtually all maize
farmland by 1945, the varied ecology in Mexico has greatly discouraged such
universal adoption of hybrids (Frankel et al., 1995; Ortega, 2003a;Perales et
al., 2003a). In Mexico, the proportion of maize land surface sown with
landraces (80%)is far beyond both the average world value (48.5%) and the
average for Latin America (55%;Morris, 2001), excluding Argentina, which now
only plants hybrids. In developed countries it is primarily used as a poultry
and animal feed, whileas in developing regions of the world maize grain is
produced for human consumption, besides poultry and animal ration which get the
secondary importance.
Development of number of modern high yielding hybrids and synthetic in
maize has replaced all the elite landraces and has posed a big threat in terms
of loss of valuable genetic variability and potential genetic vulnerability.
Genetic diversity created in the farmers, field over millennia
complemented by genetic diversity present in the wild relatives of crop provide
the raw material for improving crop productivity through plant breeding.These
landrace populations are finite and vulnerable to losses due to development of
new crop varieties, growing urbanization, natural hazards etc.These valuable
resources contribute enormously towards the millennium
Corresponding
author:-[email protected]
development
goals of food security, poverty alleviation, environmental protection and sustainable
development.
In the State Jammu and
Kashmir(India), maize is second most important crop after rice and is a staple
food of some tribal areas such as Gujar and Bakarwall (nomadic race). The main maize
crop is generally grown as rainfed and on marginal lands particularly in hilly
terrains of the Kashmir valley. It is situated at longitude and latitude of
73.0-76.2E and 32.50-36.0N respectively The Kashmir Division is agroclimatically
a typical temperate region. In Kashmir Valley maize is grown as a sole crop at
an altitude range of 1850-2300m above mean sea level. However it is also found
to occupy plain belts of the valley in few pockets where irrigation facility is
either absent or inconvenient. In fact the plain belts of the valley
(1450-1650m amsl), maize is usually grown as backyard crop/kitchen garden crop.
The plants are not allowed to go to seed development. The crop is usually
consumed just before dough stage as roasted or boiled cob.
Exploitation
of maize heterosis through the development of modern high yielding hybrids and
synthetics has gradually replaced the low yielding maize populations at a faster
rate in maize growing regions of the world. However little impact was realized
in Kashmir in the form of area enhancement under these modern varieties. The most important
reason behind the fact was that hybrids are developed for more favourable environments
and add a non significant gain in the marginal environment. The expensive seed
cost further aggravate the situation. In some cases diminishing returns were
realized because of their poor adaptability under cold temperate conditions of
Kashmir. Some land race populations of maize are still popular with the farmers
of Kashmir. A number of landrace populations of maize have been documented from
Kashmir valley but presently few are in the farmers, domain. They
are grown from very early times and are very much popular because of one or
another factor. The Table gives a list of important landraces of maize with
their salient features. These are grown as sole crops and in some cases
intercropped with pulse crops such as beans, green gram etc. to increase the
cropping intensity. The farmers go for intercropping because through
traditional knowledge system they know the positive impact on compatibility of
two crops and soil health aspect. The main reason of their popularity even in
the circumstances of availability of high yielding varieties bred by public and
private sector are:
� Good adaptation:- Their adaptation to specific agroecologies
and have usually assumed a niche status. They have very good population
buffering.
� Wide
resistance to natural factors:- These land race
populations have wide range of genetic variability and adaptability. They
possess the genes for tolerance to various biotic and abiotic stresses. Most
important to mention are drought, cold, insect, pest resistance etc.
� They
are early maturing and thus vacate the field early and escape the cold injury
risk at later stages of crop growth. Snowfall is likely to be expected in the
month of September particularly in the hilly terrains when the crop is under
dough stage.
� Their very good culm quality usually thin
and succulent stems are highly relished by the cattle in the lean season when
there is no other fodder crop available.
� As
maize is grown usually on marginal lands and under low input environment and
the areas where irrigation facility is absent. Since these landraces have much
specific adaptability, they thrive best even under low input conditions.
Known, locally-adapted,open-pollinated maize with
its more variable flowering times is often a "safer" crop under
marginal farming conditions (Farr, 2001; Ortega,2003a).
� Good
grain quality:- Because of very good grain quality
they are mostly preferred over hybrids and synthetics bred by Mountain Crop
Research Station ( SKUAST-K) meant for the purpose for different agroecologies of Kashmir and from outside sources of
equivalent ecologies.
� Food
and fodder value: These land races
usually serve as a staple food of 15% of the population of Kashmir valley. The
maize kernels are ground to fine flour (locally called Makai atta). The unleavened bread is
finally prepared of this flour which is much liked by the local people even the
rice consumers of Kashmir. The bread is usually supplemented with locally
prepared ghee which adds taste and aroma to the
unleavened bread. The byproduct of
the grinding process is rough maize flour (locally called Satoo) and is consumed with salt
tea. It is used throughout Kashmir valley as a breakfast food and is cheaper
alternative to bread made up of wheat for low income families. In some cases
maize is consumed just like rice. After boiling maize grains a sticky dish is
prepared and is supplemented with curd. This is highly relished by elderly
people in the hilly areas and locally called makai
wart. In the local system of medicine it is recommended to diabetic patients
and those having urinary problems. The Photographs-1provide the information
about the broad spectrum variability about cob
characters, colour variations, cob sizes and textures. Photograph-2 shows the
products of maize directly consumed by local population. Satoo(rough flour)used as breakfast food, Atta(fine flour)for bread making and Makai wart (boiled kernals of maize just like
rice)
� The roasted and boiled cobs of
local land races fetch a very good market rate because of very high taste and
good sugary content. When fodder values of these landraces are concerned, their
thin and succulent stems (culm) are highly relished by cattle and do not leave
any part of it unconsumed. Since during winter the valley remains cut off for
months together from outer part of the world and these hilly terrains have no
alternative except to use maize stover as cattle
fodder.
The maize farmer growing maize for home consumption often has little
reason to choose hybrid maize over locally-adapted open-pollinated maize. When
maize is a main food source, texture, flavour and even appearance may be more
highly valued than absolute productivity under rarely-achieved, optimal
conditions (Anderson, 1952; Hern�ndez, 1993; Ortega, 2003a). Local prices for local
maize can be several times higher than for common, yellow imported maize
(Barkin, 2003), but at the national level, with current governmental policies,
there is pricing discrimination
against native, open-pollinated maize(Ortega, 2003a).
�
Conservation of biodiversity:-
Since farmers are continuously growing these landraces over years, they are
conserving and utilizing the maize biodiversity.
� Resistance
against climate change:- Landraces of maize are best
weapons to combat the challenge of climate change. These cultures conserve the
tremendous genetic variability which can serve as
wealth for overcoming future challenges like new biotic and abiotic stresses in
the scenario of climate change. There shall remain no weapon, besides these
allelic resources for the crop development.
These landraces with so many potentials are losing their popularity and
are gradually going out of farmers� domain and becoming extinct. These are
facing a tough competition from newly developed hybrids and synthetic varieties.
The main reasons of losing the farmer�s expectations and few challenges before these
erstwhile popular landraces are:
� Low
yielding potential:-Since maize landraces populations
are generally low yielders when compared top modern varieties. As a result they
are being replaced by high yielding hybrids and synthetic varieties although at
a slow rate.
� Low
resilience to some biotic stresses:- These farmers
varieties are showing low or no resistance to worldly famous maize diseases
such as Turcicum
leaf blight and common rust which are taking a heavy toll of the crop. In
disease favourable years there is significant damage
in terms of low yield production and reduction in straw quality.
� Lower sensitivity
to inputs:-
These land races are highly stable and adapted under specific
agro-ecologies. These respond at a very slow rate to favourable
environments and to costlier inputs such as inorganic and bio-fertilizers.
� Socio
economic plight of the farmers: - People engaged with maize production are resource
poor farmers and are socially and economically backward. They are not growing their
landraces on modern scientific lines. It is the need of hour to conserve these maize
landrace populations. There is much probability of these maize cultures to
become extinct by the very near future. Big challenge before plant breeders is
therefore to collect conserve, genetically enhance and to utilize these
populations so as to get themselves prepared for forthcoming challenges.
Improvement of maize
landrace populations.
� Since landraces are having wide genetic variability. Their genetic enhancement for yield and
other morphoagronomic traits can simply be obtained by mass selection. Few
selection cycles can give a significant genetic gain over the base population.
Thus various economic traits can be improved through this method.
� Population
improvement programme: - Few simple recurrent selection cycles can genetically improve
the base population of these landraces because they possess broad
spectrum genetic variability within the population for various economic
traits. This not only improves the population per se but improved inbreds can be
derived from the populations for hybrid development.
� Initiating
the hybrid development programme:
Development of some elite inbreds from these improved
population for hybrid development programme and using
one of the parents from exotic sources can exploit the heterosis. Because the
two lines would be genetically dissimilar and this wide diversity between the
lines is the raw material for heterosis.
� Biotechnological
interventions:-
Few economic traits of these landraces can be rectified by using the
latest tool of biotechnology such as molecular selections and other tools.
� Innovative
approaches for crop improvement:- New scientific
management technologies can be popularized in the farming community like proper
crop husbandry practices for better production which in turn can improve
socioeconomic plight of the farmers.
� Participating
plant breeding (PPB) approaches:
PPB will work with farmers aspirations and
needs and develop the varieties as per the prioritiers
of clients. This is because in formal breeding programme
varieties are generally developed at favourable
environments but are proposed for different environments. The released variety
is in real practice not in multiplication chain and is thus not available. The
expensive cost and long lag phase from development of variety and actual
availability to farmers also play a role in slow adoption of good varieties.
The resource poor farmers particularly in maize are generally located at marginal
environments and such conditions are not being given due consideration. It is
here these landraces can be popularized after genetic enhance and genetic
purification right in the farmers fields. The community seed production units
can be established for informal seed multiplication chain. Thus participatory
role is needed where farmers can be directly involved and agroecology
specific varieties can be designed. This will economize time and resources viz-a-viz maintain the maize
genetic diversity in-situ
Conclusion:- Landraces are the reservoir of important
allelic resources of a crop, such is the case with maize crop also. Nature has bestowed them the genes with
wide resilience against many kinds of stresses such as cold, drought spells and
some disease and insect pests. They have the genes for adaptability, besides
grain and straw quality. These populations are the reservoirs of useful genes which can combat the new coming challenges and other
socio-economic issues. Hence their conservation on
farm, in situ, ex-situ on scientific lines and their usage by exploring these
useful gene banks for maize breeding and its development program.
Literature cited
Anderson, E., 1952. Plants, Man and Life.
Boston: Little, Brown
Barkin, D. 2003. El ma�z y la econom�a. In Sin ma�z no hay pa�z,
G. Esteva and C. Marielle, ed.,
155-176. Mexico, D.F.: Consejo Nac. Cultura y Artes
FIRA, 1998. Oportunidades de desarrollo del ma�z mexicano. Bolet�n
Informativo 309(30).
Mexico, D.F.: Fideicomisos Instituidos en Relaci�n
con la Agricultura en el Banco de Mexico.
Farr, E.A. 2001. The benefits of traditional agriculture in Mexico. e-Mexico
Journal 1:
Frankel, O., A.H.D. Brown and J.J. Burdon, 1995. The Conservation of
Plant Biodiversity.
Cambridge: Cambridge University Press.
Hern�ndez X., E. 1993. Aspects of plant domestication in Mexico: A
personal view. In BiologicalDiversity in Mexico, Origins and Distribution, T.P.
Ramamoorthy, R. Bye, A. Lot and J. Fa, ed.,733-753. London: Oxford University
Press.
Morris, M. L. 2001. Assesing the benefits of international maize
breeding research: an overview of the global maize impacts study. In CIMMYT
1999/2000 World maize facts and trends, P. L.
Pingali, ed., 25-34. Mexico, D. F.: CIMMYT.
Ortega P., R. 2003a. Causes of genetic erosion in maize. Paper presented
at "Gene Flow: What
Does It Mean for Biodiversity and Centers of Origin, �September 29-30,
2003. Mexico City,
Mexico.
Ortega P., R., M.A. Mart�nez A. and J.J. S�nchez G. 2000. Recursos
fitogen�ticos aut�ctonos. In
Recursos Fitogen�ticos de M�xico para la
Alimentaci�n y la Agricultura. Ram�rez V., P., R
Perales R., H., S. B. Brush, and C.O. Qualset. 2003a. Landraces of maize
in central Mexico: An
altitudinal transect. Economic Botany 57:1-20.
Warman, A., 2001. El Campo Mexicano en el Siglo XX. Mexico, D.F.:
Fondo de Cultura Econ�mica.262 pp.
Table: List
of important landrace populations of maize of Kashmir with salient features
|
Name of
landrace population |
Colour |
Salient
features |
Remarks in
terms of usage/market value |
|
Anantnag safed |
White |
Semi dent, Medium maturity, good
straw quality |
Bread ,satoo*,poultry ration, low market value |
|
Anantnag lader |
yellow |
Semi dent, Medium maturity, good
straw quality |
Bread, poultry ration, medium market value |
|
Pahalgam wuzg |
Deep orange |
Semi dent, Medium maturity, good
straw quality |
Satoo,cattle feed, high market
value |
|
Pahalgam safed |
white |
Semi dent, early maturity, good straw quality |
Bread ,satoo,poultry ration, low
market value |
|
Vailoo local |
yellow |
Semi dent, early maturity, good straw quality |
Bread, poultry ration, medium
market value |
|
Gowran wuzg |
Deep orange |
Semi dent, extra early , good straw quality |
Satoo,cattle feed, high market
value |
|
Matihundi safed |
white |
Semi dent, small cob,early , good straw quality |
Bread ,satoo,poultry ration, low
market value |
|
Matihundi wuzg |
Deep orange |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality |
Satoo,cattle feed, high market
value |
|
Gurdamn wuzg |
Deep orange |
Semi dent,plant and ear
characteristics poor,extra early, good straw quality |
Satoo,cattle feed, high market
value |
|
Gurdamn lader |
yellow |
Semi dent,plant and ear
characteristics poor, early
maturity good straw quality |
Bread, poultry ration, medium
market value |
|
Tangwin safed |
White |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality |
Bread ,satoo,poultry ration, low
market value |
|
Khreti wuzg |
Deep orange |
Semi dent,plant and ear
characteristics poor, early maturity, good straw quality, low yielding |
Satoo,cattle feed, high market
value |
|
Aru wangan |
purple |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality,Very low
yielding |
Bread, poultry ration, medium
market value |
|
Aru wuzg |
Deep orange |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality,Low yielding |
Satoo,cattle feed, high market
value |
|
Satura safed |
White |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality,Yield potential
medium |
Bread ,satoo, poultry ration, low market value |
|
Paner lader |
yellow |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality |
Bread, poultry ration, medium
market value |
|
Nagbal wuzg |
Deep orange |
Semi dent,plant and ear characteristics
poor, early maturity, good straw quality |
Satoo,cattle feed, high market
value |
|
Ganderbal safed |
White |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality Good yielding |
Bread ,satoo, poultry ration, low market value |
|
Gund wuzg |
Deep orange |
Semi dent,plant and ear
characteristics poor, early
maturity, good straw quality |
Satoo,cattle feed, high market
value |
*= Satoo= rough flour of maize
kernels used as breakfast food
Photograph-1:P1-P34 are 34
maize populations collected from several places of Kashmir valley and only one
cob per population has been shown in photograph
Photograph-2:
Different products made from maize and consumed by local population
Please
Note: Notes submitted to the Maize Genetics Cooperation Newsletter may be cited
only with consent of authors.