CN110915634A - Forage grass planting method for ram raising - Google Patents

Abstract

The invention discloses a method for planting pasture for breeding rams, which comprises the following steps: step one, breeding: harvesting third-generation improved grass seeds; step two, planting forage grass seeds: laying a plurality of layers of water pools on the laminated frame, filling clear water into the water pools, and adding organic fertilizers; a plurality of floating plates float above the clear water, a plurality of planting holes are formed in the floating plates, and grass seeds are planted in the planting holes; step three, environment control: the laminated frame is installed in the greenhouse, and the temperature in the greenhouse is kept at 15-25 ℃ through a ventilating fan, well water and ground heating; a plurality of light supplement lamps are arranged on the laminated frame, so that the illumination on the planting holes reaches 12-15 hours/day; step four, harvesting the pasture: when the forage grass grows, the floating plate is taken out from the water pool, and the forage grass is pulled out. The invention has the characteristics of high yield, large leaf quantity, crisp stems, good palatability, shortened growth process, no influence of environmental temperature and illumination in four seasons, high zinc and selenium content in more than one year and improved sperm quality of rams.

Description

Forage grass planting method for ram raising

Technical Field

The invention relates to a method for planting forage grass for breeding rams, in particular to a method for planting the forage grass for breeding the rams, which has the advantages of high yield, large leaf amount, crisp stems, good palatability, shortened growth process, no influence of environmental temperature and illumination in four seasons, more than one year, high zinc and selenium content and strong capacity of improving the sperm quality of the rams.

Background

The requirements for breeding rams on physical quality and other aspects are strict, so that great effort is needed to breed rams with good conditions in all aspects, and the breeding management and daily management of the rams are also related to the selection of ram varieties.

The quality of the ram is directly related to the production performance and the product quality of a flock, the ram with good quality is strong in physique, good in semen quality and capable of prolonging the service life, feeding management needs to be enhanced in order to obtain the ram with good quality, the ram in a breeding period has high requirements on protein, vitamins, trace elements and the like, however, the existing feed is often insufficient in protein content or deficient in vitamins, so that the growth of the ram is blocked, the semen quality is reduced, the semen collection amount is reduced, and a reasonable way for solving the problems is to change the feed formula and ensure the balance of nutrition supply.

The forage grass is used as a main raw material of the ram feed, the yield, the leaf amount and the taste of the ram feed, and the content of trace elements for improving the sperm quality of the rams directly influences the breeding cost and the reproductive capacity of the rams.

Disclosure of Invention

The invention aims to provide the ram breeding forage grass planting method which has the advantages of high yield, large leaf amount, crisp stems, good palatability, shortened growth process, no influence of environmental temperature and illumination in four seasons, high zinc and selenium content in more than one year, and strong capacity of improving the sperm quality of rams.

The purpose of the invention can be realized by the following technical scheme:

a method for planting pasture for feeding ram comprises the following steps:

step one, breeding: interplanting the grass seeds and the corn seeds in a well-organized field; planting a row of pasture and a row of corn at intervals; controlling the flowering phases of the pasture and the corn to be the same, pollinating the pasture by adopting corn pollen, and collecting a generation of improved pasture; interplanting the first-generation improved forage grass and corn seeds in the well-organized field again, controlling the flowering phase of the first-generation improved forage grass to be the same as that of the corn, pollinating the first-generation improved forage grass by adopting corn pollen, and harvesting the second-generation improved forage grass; then the second generation of improved pasture and corn seeds are planted in the well-organized field, and the third generation of improved pasture seeds are harvested according to the mode;

step two, planting forage grass seeds: laying a plurality of layers of water pools on the laminated frame, filling clear water into the water pools, and adding organic fertilizers; a plurality of floating plates float above the clear water, a plurality of planting holes are arranged on the floating plates, and the planting holes penetrate through the upper and lower surfaces of the floating plates; a screen plate is fixed below the floating plate and covers the bottom end of the planting hole; planting the third generation improved forage grass seeds on the mesh plate in the planting hole; the grass seeds are contacted with clear water and organic fertilizer in the water tank through the mesh plate;

step three, environment control: the laminated frame is installed in the greenhouse, and the temperature in the greenhouse is kept at 15-25 ℃ through a ventilating fan, well water and ground heating; a plurality of light supplement lamps are arranged on the laminated frame and irradiate the planting holes in the water pool; controlling a light supplement lamp to enable the illumination on the planting holes to reach 12-15 hours/day in cooperation with sunlight; the light supplement lamp consists of a red light LED and a blue light LED, the red light LED and the blue light LED form a pasture growing lamp, and the pasture growing lamp is beneficial to the growth of pasture;

step four, harvesting the pasture: when the forage grass grows, taking out the floating plate from the water pool, and pulling out the forage grass; drying the harvested forage grass in the sun, and taking the forage grass as a main raw material of the ram coarse fodder for eating by rams;

the mass ratio of the clear water to the organic fertilizer is 100: 5-8; supplementing clear water and organic fertilizer to the original water level every 5-7 days, wherein the proportion of the supplemented clear water to the organic fertilizer is 100: 5;

the organic fertilizer is prepared from seaweed powder, peanut cakes, straws, zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder, sodium alkyl benzene sulfonate, slaked lime, humic acid and hydroxymethyl cellulose;

the organic fertilizer comprises the following raw materials in parts by weight: 20-40 parts of seaweed powder, 10-20 parts of peanut cake, 10-20 parts of straw, 2-6 parts of zinc sulfate, 2-6 parts of zinc gluconate, 1-4 parts of sodium selenite, 1-4 parts of yeast selenium, 1-2 parts of calcium superphosphate, 1-2 parts of ferrous sulfate, 0.5-1 part of magnesium sulfate, 0.5-1 part of manganese sulfate, 8-12 parts of zymophyte powder, 3-4 parts of sodium alkyl benzene sulfonate, 16-18 parts of hydrated lime, 10-20 parts of humic acid and 15-20 parts of hydroxymethyl cellulose;

the preparation method of the organic fertilizer comprises the following steps:

step S01, weighing the raw materials according to the proportion of the components of the organic fertilizer for later use;

step S02, putting the seaweed meal, the peanut cakes and the straws into a wall breaking machine, crushing, and uniformly stirring to obtain mixed powder;

step S03, adding zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate into the mixed powder, then injecting a little clear water, stirring uniformly, sealing and storing for 5-10 days in a dark place; and adding slaked lime, humic acid and hydroxymethyl cellulose, sealing and storing for 16-20 days in a dark place, and then sealing and storing for later use in a dark place.

The invention provides a forage grass planting method for breeding rams, which has the characteristics of high yield, large leaf quantity, crisp stems, good palatability, shortened growth process, no influence of environmental temperature and illumination in four seasons, high zinc and selenium content in more than one year and capability of improving the sperm quality of the rams. The invention has the beneficial effects that: the invention adopts the inter-planting of the forage grass and the corn, pollinates the forage grass by corn pollen to obtain the third generation improved forage grass seeds, and the third generation improved forage grass has the characteristics of high yield, large leaf quantity, crisp stems and good palatability;

the pasture growing temperature is controlled through a greenhouse, a ventilating fan, well water and ground heating by adopting a laminated frame, a water pool and a floating plate for cultivation without water, and the light supplementing lamp is matched with sunlight, so that the photosynthesis time of the pasture is prolonged, the growth process of the pasture is shortened, and the yield of the pasture is increased;

the organic fertilizer is based on seaweed powder, peanut cakes and straws, and trace elements in clear water are supplemented by zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate, wherein the zinc and the selenium have the functions of improving the sperm quality and the reproductive capacity of rams; and slaked lime, humic acid and hydroxymethyl cellulose are added for fermentation, so that organic fertilizer is promoted to be absorbed by the pasture, the growth and the trace element deposition of the pasture, the corn and the corn stalks are improved, and the sperm quality and the reproductive capacity of the rams are improved through the feed.

Detailed Description

The purpose of the invention can be realized by the following technical scheme:

a method for planting pasture for feeding ram comprises the following steps:

step one, breeding: interplanting the grass seeds and the corn seeds in a well-organized field; planting a row of pasture and a row of corn at intervals; controlling the flowering phases of the pasture and the corn to be the same, pollinating the pasture by adopting corn pollen, and collecting a generation of improved pasture; interplanting the first-generation improved forage grass and corn seeds in the well-organized field again, controlling the flowering phase of the first-generation improved forage grass to be the same as that of the corn, pollinating the first-generation improved forage grass by adopting corn pollen, and harvesting the second-generation improved forage grass; then the second generation of improved pasture and corn seeds are planted in the well-organized field, and the third generation of improved pasture seeds are harvested according to the mode;

step two, planting forage grass seeds: laying a plurality of layers of water pools on the laminated frame, filling clear water into the water pools, and adding organic fertilizers; a plurality of floating plates float above the clear water, a plurality of planting holes are arranged on the floating plates, and the planting holes penetrate through the upper and lower surfaces of the floating plates; a screen plate is fixed below the floating plate and covers the bottom end of the planting hole; planting the third generation improved forage grass seeds on the mesh plate in the planting hole; the grass seeds are contacted with clear water and organic fertilizer in the water tank through the mesh plate;

step three, environment control: the laminated frame is installed in the greenhouse, and the temperature in the greenhouse is kept at 15-25 ℃ through a ventilating fan, well water and ground heating; a plurality of light supplement lamps are arranged on the laminated frame and irradiate the planting holes in the water pool; controlling a light supplement lamp to enable the illumination on the planting holes to reach 12-15 hours/day in cooperation with sunlight; the light supplement lamp consists of a red light LED and a blue light LED, the red light LED and the blue light LED form a pasture growing lamp, and the pasture growing lamp is beneficial to the growth of pasture;

step four, harvesting the pasture: when the forage grass grows, taking out the floating plate from the water pool, and pulling out the forage grass; drying the harvested forage grass in the sun, and taking the forage grass as a main raw material of the ram coarse fodder for eating by rams;

the mass ratio of the clear water to the organic fertilizer is 100: 5-8; supplementing clear water and organic fertilizer to the original water level every 5-7 days, wherein the proportion of the supplemented clear water to the organic fertilizer is 100: 5;

the organic fertilizer is prepared from seaweed powder, peanut cakes, straws, zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder, sodium alkyl benzene sulfonate, slaked lime, humic acid and hydroxymethyl cellulose;

the organic fertilizer comprises the following raw materials in parts by weight: 20-40 parts of seaweed powder, 10-20 parts of peanut cake, 10-20 parts of straw, 2-6 parts of zinc sulfate, 2-6 parts of zinc gluconate, 1-4 parts of sodium selenite, 1-4 parts of yeast selenium, 1-2 parts of calcium superphosphate, 1-2 parts of ferrous sulfate, 0.5-1 part of magnesium sulfate, 0.5-1 part of manganese sulfate, 8-12 parts of zymophyte powder, 3-4 parts of sodium alkyl benzene sulfonate, 16-18 parts of hydrated lime, 10-20 parts of humic acid and 15-20 parts of hydroxymethyl cellulose;

the preparation method of the organic fertilizer comprises the following steps:

step S01, weighing the raw materials according to the proportion of the components of the organic fertilizer for later use;

step S02, putting the seaweed meal, the peanut cakes and the straws into a wall breaking machine, crushing, and uniformly stirring to obtain mixed powder;

step S03, adding zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate into the mixed powder, then injecting a little clear water, stirring uniformly, sealing and storing for 5-10 days in a dark place; and adding slaked lime, humic acid and hydroxymethyl cellulose, sealing and storing for 16-20 days in a dark place, and then sealing and storing for later use in a dark place.

The working principle of the invention is as follows:

the invention adopts the inter-planting of the forage grass and the corn, pollinates the forage grass by corn pollen to obtain the third generation improved forage grass seeds, and the third generation improved forage grass has the characteristics of high yield, large leaf quantity, crisp stems and good palatability;

the pasture growing temperature is controlled through a greenhouse, a ventilating fan, well water and ground heating by adopting a laminated frame, a water pool and a floating plate for cultivation without water, and the light supplementing lamp is matched with sunlight, so that the photosynthesis time of the pasture is prolonged, the growth process of the pasture is shortened, and the yield of the pasture is increased;

the organic fertilizer is based on seaweed powder, peanut cakes and straws, and trace elements in clear water are supplemented by zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate, wherein the zinc and the selenium have the functions of improving the sperm quality and the reproductive capacity of rams; and slaked lime, humic acid and hydroxymethyl cellulose are added for fermentation, so that organic fertilizer is promoted to be absorbed by the pasture, the growth and the trace element deposition of the pasture, the corn and the corn stalks are improved, and the sperm quality and the reproductive capacity of the rams are improved through the feed.

The invention provides a forage grass planting method for breeding rams, which has the characteristics of high yield, large leaf quantity, crisp stems, good palatability, shortened growth process, no influence of environmental temperature and illumination in four seasons, high zinc and selenium content in more than one year and capability of improving the sperm quality of the rams. The invention has the beneficial effects that: the invention adopts the inter-planting of the forage grass and the corn, pollinates the forage grass by corn pollen to obtain the third generation improved forage grass seeds, and the third generation improved forage grass has the characteristics of high yield, large leaf quantity, crisp stems and good palatability;

the pasture growing temperature is controlled through a greenhouse, a ventilating fan, well water and ground heating by adopting a laminated frame, a water pool and a floating plate for cultivation without water, and the light supplementing lamp is matched with sunlight, so that the photosynthesis time of the pasture is prolonged, the growth process of the pasture is shortened, and the yield of the pasture is increased;

the organic fertilizer is based on seaweed powder, peanut cakes and straws, and trace elements in clear water are supplemented by zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate, wherein the zinc and the selenium have the functions of improving the sperm quality and the reproductive capacity of rams; and slaked lime, humic acid and hydroxymethyl cellulose are added for fermentation, so that organic fertilizer is promoted to be absorbed by the pasture, the growth and the trace element deposition of the pasture, the corn and the corn stalks are improved, and the sperm quality and the reproductive capacity of the rams are improved through the feed.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (5)

1. A forage grass planting method for ram raising is characterized by comprising the following steps:

step one, breeding: interplanting the grass seeds and the corn seeds in a well-organized field; planting a row of pasture and a row of corn at intervals; controlling the flowering phases of the pasture and the corn to be the same, pollinating the pasture by adopting corn pollen, and collecting a generation of improved pasture; interplanting the first-generation improved forage grass and corn seeds in the well-organized field again, controlling the flowering phase of the first-generation improved forage grass to be the same as that of the corn, pollinating the first-generation improved forage grass by adopting corn pollen, and harvesting the second-generation improved forage grass; then the second generation of improved pasture and corn seeds are planted in the well-organized field, and the third generation of improved pasture seeds are harvested according to the mode;

step two, planting forage grass seeds: laying a plurality of layers of water pools on the laminated frame, filling clear water into the water pools, and adding organic fertilizers; a plurality of floating plates float above the clear water, a plurality of planting holes are arranged on the floating plates, and the planting holes penetrate through the upper and lower surfaces of the floating plates; a screen plate is fixed below the floating plate and covers the bottom end of the planting hole; planting the third generation improved forage grass seeds on the mesh plate in the planting hole; the grass seeds are contacted with clear water and organic fertilizer in the water tank through the mesh plate;

step three, environment control: the laminated frame is installed in the greenhouse, and the temperature in the greenhouse is kept at 15-25 ℃ through a ventilating fan, well water and ground heating; a plurality of light supplement lamps are arranged on the laminated frame and irradiate the planting holes in the water pool; controlling a light supplement lamp to enable illumination on the planting holes to reach 12-15 hours/day in a matching manner with sunlight; the light supplement lamp consists of a red light LED and a blue light LED, the red light LED and the blue light LED form a pasture growing lamp, and the pasture growing lamp is beneficial to the growth of pasture;

step four, harvesting the pasture: when the forage grass grows, taking out the floating plate from the water pool, and pulling out the forage grass; the harvested forage grass is dried in the sun and used as a main raw material of ram coarse fodder for rams to eat.

2. A pasture grass planting method for feeding rams as claimed in claim 1 wherein the mass ratio of the clear water to the organic fertilizer is 100: 5-8; and supplementing clear water and organic fertilizer to the original water level every 5-7 days, wherein the proportion of the supplemented clear water to the organic fertilizer is 100: 5.

3. A method for planting pasture grass for raising rams as claimed in claim 1 wherein the organic fertilizer is made from seaweed meal, peanut cake, straw, zinc sulphate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulphate, magnesium sulphate, manganese sulphate, zymocyte powder, sodium alkyl benzene sulphonate, hydrated lime, humic acid, hydroxymethyl cellulose.

4. A pasture grass planting method for ram raising as claimed in claim 1, wherein the organic fertilizer comprises the following raw materials in parts by weight: 20-40 parts of seaweed powder, 10-20 parts of peanut cake, 10-20 parts of straw, 2-6 parts of zinc sulfate, 2-6 parts of zinc gluconate, 1-4 parts of sodium selenite, 1-4 parts of yeast selenium, 1-2 parts of calcium superphosphate, 1-2 parts of ferrous sulfate, 0.5-1 part of magnesium sulfate, 0.5-1 part of manganese sulfate, 8-12 parts of zymophyte powder, 3-4 parts of sodium alkyl benzene sulfonate, 16-18 parts of hydrated lime, 10-20 parts of humic acid and 15-20 parts of hydroxymethyl cellulose.

5. A method for growing pasture grass for feeding rams as claimed in claim 1 wherein the method of making the organic fertilizer includes the steps of:

step S01, weighing the raw materials according to the proportion of the components of the organic fertilizer for later use;

step S02, putting the seaweed meal, the peanut cakes and the straws into a wall breaking machine, crushing, and uniformly stirring to obtain mixed powder;

step S03, adding zinc sulfate, zinc gluconate, sodium selenite, selenium yeast, calcium superphosphate, ferrous sulfate, magnesium sulfate, manganese sulfate, zymocyte powder and sodium alkyl benzene sulfonate into the mixed powder, then injecting a little clear water, stirring uniformly, sealing and storing for 5-10 days in a dark place; and adding slaked lime, humic acid and hydroxymethyl cellulose, sealing and storing for 16-20 days in a dark place, and then sealing and storing for later use in a dark place.