Berseem, or Egyptian clover, is an important winter forage crop grown in northern India. It provides nutritious green forage for livestock for 6-7 months each year through multiple cuttings. Berseem originated in Southwest Asia and was introduced to India in the 19th century. It grows best in a cool climate with temperatures between 25-27°C and adequate rainfall or irrigation. Breeding efforts aim to develop varieties with higher yield, better forage quality, and tolerance to biotic and abiotic stresses. Further genetic improvement of berseem is limited by its narrow genetic base.
2. Content
• Introduction
• Forage Quality
• Global and Indian
Scenario
• Taxonomy
• Types of Berseem
• Habit
• Floral Biology
• Origin
• Distribution
• Soil and Climate
• Breeding Objectives
• Limitations
• Future Prospects
3. Introduction
• Berseem or Egyptian clover is popularly known as the King of
fodder crops for irrigated condition of Northern India
• It is available for 6-7 month from November to May, gives 4 -
6 cuts during winter, spring and early summer
• The green forage can also be converted in to excellent hay and
utilized for enrichment of poor quality roughages like Kadbis
and straw
• Berseem also has soil building characteristics and improves
the physical, chemical and biological properties of the soil
resulting in better growth and yield of crops in rotation
• Hence, important for conservation farming and imparts
sustainability to soil productivity and crop production system
4. Origin
• Berseem originated in SW Asia (Syria)
• It was introduced into Egypt in the 6th century, into
India in the 19th century and into Pakistan, South
Africa, the USA and Australia in the 20th century
• Also grown in some areas of southern Europe
• Berseem has been one of the fastest spreading
fodder species in recent times, mainly under small-
scale farming conditions
5. Distribution
• It is cultivated from 35°N to the Tropics, from
sea level up to 750 m (1500 m in North West
Himalaya)
• Berseem is mainly valued as a winter crop in
the subtropics as it grows well in mild winter
and recovers strongly after cutting
• It does not grow well under hot summer
conditions
6. Forage quality
• Berseem is highly nutritious, succulent and palatable
forage for all types of livestock.
• It stimulates milk production of cows and buffaloes
• It is popular both for milch and draught animals.
• Berseem is a good source of crude protein, calcium,
phosphorus and ether extract.
• The green forage of Berseem (on dry matter basis)
contains 17-22% CP, 62% TDN includes 42-49%
neutral detergent fibre, 35-38% acid detergent fibre,
24-25% cellulose and 7-10% hemicellulose.
7. Global and Indian
scenario
Area: India- 2 mha
Egypt- 1.1 mha
Pakistan- 0.71 mha
Forage Productivity:
60-120 tonnes/ha
India Berseem Producing Regions
9. Types of Berseem
• Berseem is a variable species that can be classified
into four cultivars groups according to their
branching behavior & subsequent productivity:
1. Highly branching and productive types -
a). Miscawi, b). Kahdrawi (can yield 4-6
cuttings/season)
2. Saidi can be cut only twice
3. Fahli berseem is a low branching cultivar and is
more adapted to dry areas
11. Habit
• Berseem is an annual, sparsely hairy, erect forage legume, grow 30
to 80 cm high
• Roots: shallow taproot, not beyond two feet in general and contains
nodules
• Stem: hollow, branching at the base, with alternate leaves bearing 4-
5 cm long & 2-3 cm broad leaflets
• Leaves: trifoliate, petiolate, membranous, oblong-elliptical to
oblong-lanceolate, arranged alternately except the uppermost leaf
• Inflorescence: contains around 100 papilionaceous flowers,
yellowish-white & form dense, elliptical clustered heads about 2 cm
in diameter
• Pollination: flowers must be cross-pollinated by honey bees to
produce seeds
• Fruit: a pod containing one single white to purplish-red seed
12. Floral Biology
• Cross pollinated plant, entomophilous
• White colored flowers, produced in cluster
• Hermaphrodite
• Five fused sepals & five free petals
• The upper large petal - standard petal
• Two bottom petals, fused, boat-like structure called the
keel
• Stamens: ten, fused filaments are fused (9+1)
• Anthesis occurs in the morning hours, coincides with
maximum pollinator activity, leads to seed setting.
13. Berseem Flower at different phases
Inflorescence
Berseem Seeds
Berseem Crop
14. Soil and Climate
• Berseem is adapted to cool and moderately cold
climate
• Such conditions prevail during winter and spring
seasons in north India which is considered as
favorable and productive zone for this crop
• The optimum temperature at the time of sowing
Berseem is 250C
• For Iuxuriant vegetative growth temperature
range of 250C to 27oC has been found ideal
• Uniformly high temperature in south Indian
conditions limits the cultivation of Berseem.
15. Soil and Climate
• Berseem has some frost tolerance, down to -6°C and as
low as -15°C for some cultivars
• Berseem can grow in areas where annual rainfall ranges
between 550 mm and 750 mm
• It can withstand some drought and short periods of
waterlogging
• It does better than alfalfa in high moisture soils and is
very productive under irrigation
• It is moderately tolerant of salinity and can grow on a
wide range of soils, though it prefers fertile, loamy to
clay soils
• Prefers mildly acidic to slightly alkalinie pH (6.5-8)
16. Breeding objectives
(i) High dry matter yield
(ii) Better quality components– crude protein content,
in-vitro dry-matter digestibility, low percentage of
neutral detergent fibre and toxicity
(iii)High response to inputs
(iv) Tolerance to adverse soils- acidic/saline soils
(v) Tolerance to extreme weather conditions – high
rainfall/ low moisture regime
17. Breeding objectives
(i) Resistance to diseases and insect-pests
(ii) Greater persistence summer persistence in annual multi-
cut forages, e.g. berseem and exploitable regeneration
ability in perennial multi-cuts e.g. lucerne
(iii) Greater aggressiveness/ fast growth
(iv) Competing ability or complementation with the
companion crop, for example, oats competes well in an
intercropping of Oats + Berseem and yield better in
early cuts or first cut and subsequently it allows
berseem to flourish over and above its own production
potential.
18. Limitations
(i) Non-availability of sufficient quantity of quality
fodder seeds
(ii) Non-availability of dual-purpose varieties
(iii)Non-synchronous flowering /anthesis and spikelet
maturity
(iv) Abscission of spikelet after maturity and the
presence of large number of sterile glumes
(v) Overlapping of vegetative and reproductive growth
phases
(vi) Apomictic nature limits their genetic improvement
19. Forage yield
• Forge yield potential of Berseem crop is very high
• Yield potential : 1000 to 1200 q/ha green forage
• Mixed cropping: Japan rape or Chines cabbage 2.25
kg seed/ha increases the yield by 20-25 per cent in
first cut
21. Future prospects
Berseem being an introduced crop in India, genetic
improvement in this crop is hampered by narrow
genetic base and lack of variability in desirable
traits. There is a scope to further strengthen the
genomic resources by developing more SSR
markers, molecular linkage map and mapping of
forage quality and biomass contributing traits which
could be utilized to speed up conventional breeding
programme going on in different research
institutes/universities.