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cultivation of pomegranate and its uses

BOTANICAL NAME: Punica granatum L
FAMILY: Punicacae
LOCAL (VERNACULAR) NAMES:
English: Pomegranate
Sanskrit: Dadima
Hindi: Anar
Tamil: Maadhulai
Malayalam: Matalam
Kanada: Daalimbe


DESCRIPTION: Punica granatum L. is a small deciduous tree with smooth, dark grey bark. The thorns are straight, long, pointed and woody. The leaves are narrow and glossy. The flowers are usually scarlet red (occasionally yellow)...
 

cultivation of curry leaf and its uses

BOTANICAL NAME: Murraya koengii L.
FAMILY: Rutaceae
LOCAL (VERNACULAR) NAMES:
English: Curry leaf
Sanskrit: Surabhi
Hindi: Katnim, Karipatta
Tamil: Karuvempu
Malayalam: Karivepu Kanada: Karibevu


DESCRIPTION: This is an evergreen shrub, up to 6m with spreading dark green foliage. The leaves of the plant are covered with minute glands and are also strongly aromatic. The plant bears clusters of small white fragrant flowers. Fruits...
 

cultivation of hibiscus herb and its uses

BOTANICAL NAME: Hibiscus rosa-sinensis L.
FAMILY: Malvaceae
LOCAL (VERNACULAR) NAMES:
English: Hibiscus, shoe-flower, Chinese rose
Sanskrit: Japapuspa
Hindi: Jasund
Tamil: Semparuthi
Malayalam: Ayamparutti
Kanada: Dasavala


DESCRIPTION: Hibiscus rosa-sinensis L. is an evergreen shrub that grows up to 30m in ideal conditions. More generally, it is about 2.5m. The leaves are bright green, ovate and coarsely...
 

Greenhouse Farming: Lettuce

Hydroponics ( Name originates from the Greek words hydro, water and ponos, work) is a strategy for developing plants soil .
Physical plants may be developed with their in the mineral supplement arrangement just or in a latent medium, for example, rock, mineral fleece, or coconut husk.

The Four basic lettuces are

1) Leaf Lettuce

The leaf lettuce comes in numerous hues, from emerald green to dim maroon. Surfaces range from adjusted edges to ornaments...
 

Cultivation Techniques for Melia dubia (malabar neem)

Site elements

The trees develop well in sandy topsoil, red and lateritic soils with a yearly precipitation of 800 mm or more.

Seed accumulation, preparing and Nursery procedures

Seed preparing and pretreatments: Reports state extremely poor germination in Melia. Learns at IFGTB uncover germination as high as 60 for every penny with no pretreatments. The drupes ought to be evaluated in water to uproot gliding seeds preceding sowing.

Nursery: Seed...

how does rice react to what was the initial upland culture of rice?

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  • how does rice react to what was the initial upland culture of rice?

    how does rice react to what was the initial upland culture of rice?

  • #2
    Makers, for instance, Light dark (1958:i:279) and

    Clifton (1981:274) see a vital turning point around 1720,

    with rice advancement clearly moving from dry to

    wet advancement. Francis Pre-adult's 1722 tract on

    trade, while not giving purposes of enthusiasm on the procedure

    of advancement, does uncover both a spike in

    era happening in 1720, and noting

    that the Parliamentary goals in return

    which were bringing on the Carolina settlement to

    cut down the estimation of the yield as more was planted

    (Merrens 1977:70-72):

    Hence it may be seen, by the

    people of Carolina's making

    additionally conveying in 1721, 8,256

    barrels of rice more than they

    did in 1719, they have lost the

    whole addition and £4,171.0.2

    sterling, the reason of which

    must be, that they make more

    than sufficient for the northern

    business division, and they can supply no

    other, nor have any disperse for

    their rice however in Extraordinary Britain,

    besides ought to in this way (unless they

    are facilitated by the parliament)

    confine themselves to a certain

    sum, or be settled by their

    own industry, which without question no

    different people ever were in the later past

    (Merrens 1977:72).

    In 1731 Engraving Catesby's The Trademark

    History of Carolina, Florida, and the Bahama Islands

    revealed huge changes in rice advancement.

    He noted that there were two "sorts" of rice,

    one a bit "bushy" grain which could be

    ended up just in water and the other a "greater, and

    brighter, of a more unmistakable form, and will create

    both in wet and sufficiently dry zone" (Merrens

    1977:99). Shockingly he similarly commented

    on the "decay" brought on by dynamic

    sowing of the same seed on the region, "bringing on it

    to turn red." Reliably the most exceedingly terrible thing about rice cultivator

    as far and wide as possible, it was this red rice that crushed so

    easily and stayed suitable in the earth to cause

    volunteer rice. What the producer were doubtlessly

    seeing is the extend, after an apparently unending measure of time, of this

    weedy rice species.

    Catesby also depicts fundamental rice

    advancement techniques:

    In Walk and April it is sown in

    shallow trenches made by the

    hough, and incredible harvests have

    been made without any further

    society than dropping the seeds

    on the uncovered found and covering

    it with earth, or in little crevices

    made to get it without any

    further organization. It agrees

    best with a rich and saturated soil,

    which is regularly two feet under

    water, at least two months in

    the year. It obliges a couple

    weedings till it is upward of

    two feet high, not simply with a

    hough, however with the assistance

    of fingers. About the inside of

    September it is slashed down and

    housed, or made into stacks till

    it is thresh'd (refered to in Merrens

    1977:100).

    A mixture of inventors create this

    record, giving unpretentious components on the bunded fields

    in addition distinctive trench to control the water supply.

    For example, Porcher notes:

    The inland swamp structure

    depended on upon storm managed supplies

    to supply water for the item.

    The fundamental practice was to

    place a bank high up a swamp,

    from high nation to great nation. The

    diked range, or supply, was

    filled by rainwater. Underneath the

    store, two more banks were

    made, an upper and lower

    bank. Both banks went from

    high nation to high nation, and

    made a reach in which water

    could be held. Trees were

    casted out from inside this diked

    range, and a course of action of check

    banks created to parcel the

    diked reach into tinier fields to

    ensure an even stream of water on

    the entire item so it would age

    reliably. A channel with a water

    control structure drove from the

    storehouse to the rice field. A

    second channel and water control

    system drove from the lower bank

    into a coterminous waterway. With the

    system set up, water could be

    streamed onto the field from the

    vault, then exhausted off at a

    later date (Porcher 1987:3-5).

    Clifton gives simply a slight mixed bag:

    Watering framework was used first as a part of

    inland swamps above tidewater

    along the upper scopes of the

    different streams of the Carolina

    lowcountry. Edges of range

    standing a few feet over the

    swamps were encased by boundaries

    on either end. The lower dike

    kept the floodwaters on the

    field; the upper dike would

    keep additional water from the

    stream from coming in. Both

    dikes were outfitted with

    courses, that on the lower

    dike to exhaust the field when

    needed and the one on the

    upper dike to allow water to

    stream into the field to the needed

    significance (Clifton 1981:275).

    A couple of these assistant records

    track over to Clowse who commented:

    Every so often in these freshwater

    swamps are edges of zone

    standing a few feet over the

    level of the swamp. Some

    inventive producer considered

    the possibility that the reach between

    two such edges could be

    dammed by loading up earth at

    either end. The dam at the lower

    end of the dishonestly made

    field would keep water on the

    field and prevent undesirable

    water from being pushed into

    the field by the tides; the dam at

    the upper end of the field would

    control the water stream into the

    field or would out and possess

    the stream around the field. A

    entryway was situated in the lower

    dam to allow water on the field

    to be exhausted off; the entrance in the

    upper dam allowed water to

    stream into the field to the hungered for

    significance (Clowse 1971:126-127).

    Clowse is the fundamental record that gives any

    essen

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