CN103355557A

CN103355557A - Compound feed for pregnant sows in expected date of delivery

Info

Publication number: CN103355557A
Application number: CN201310341061XA
Authority: CN
Inventors: 梁兆旭; 韩学义; 祁光海; 韩玉福; 梁兆严; 潘小成
Original assignee: LINXIA XIAOKANG VILLAGE FEED Co Ltd; LINXIA ZHOUZHONGHUI PIG INDUSTRY TECHNOLOGY Co Ltd
Current assignee: LINXIA XIAOKANG VILLAGE FEED Co Ltd; LINXIA ZHOUZHONGHUI PIG INDUSTRY TECHNOLOGY Co Ltd
Priority date: 2013-08-07
Filing date: 2013-08-07
Publication date: 2013-10-23
Anticipated expiration: 2033-08-07
Also published as: CN103355557B

Abstract

The invention discloses compound feed for pregnant sows in expected date of delivery. The feed is prepared by smashing and mixing following raw materials by weight: 55-65 parts of corn, 8-15 parts of soybean pulp, 2-10 parts of corn gluten powder, 3-8 parts of malt sprout, 0-3 parts of soybean oil, 2-8 parts of middlings, 3-5 parts of full-fat soybean, 0-8 parts of wheat bran, 0.4-0.6 part of a microelement premix, 0.4-0.6 part of a vitamin premix, 1.0-1.5 parts of calcium hydrophosphate, 0.2-0.4 part of edible salt, 0.5-1.0 part of stone powder, 0.2-0.5 part of lysine, 0-0.2 part of threonine, 0.08-0.1 part of tryptophan, 0.3-0.8 part of yeast culture, 0.1-0.12 part of choline and 0.1-0.4 part of magnesium sulfate. According to the feed, requirements of rapid growth of fetus in the latter half period of gestation of the sows are met, and reasonable birth weights and vitality are guaranteed; contraction functions of uterine and intestinal smooth muscles of the sows under the condition of high abdominal pressure are guaranteed; problems, namely difficult delivery, prolonged delivery, postpartum triad syndrome, and the like, occurred to the sows during delivery and lactation are reduced; and sow production performances are improved.

Description

In-pig expected date of childbirth feed

Technical field

The present invention relates to a kind of feed, relate in particular to a kind of in-pig expected date of childbirth feed.

Background technology

In-pig cries again farrowing sow, and the assignment kind is impregnated to the front sow of childbirth farrowing.Because the nutrition of in-pig picked-up not only will be satisfied the further growth of own foundation metabolism and body weight, and to satisfy growing of fetus, therefore the raising of in-pig is very important, and in-pig is raised the production capacity (litter size and piglet birth weight) that directly affects sow.Under small-scale raising condition, the feeding and management of in-pig is not by enough attention, often occur: number pigs born is few, the piglet body weight is little, the suckling pig diarrhea frequent, the rear oestrus of sow rate of wean is low, sow short problem service life, have a strong impact on the sow level of production, cause the decline in benefits of raising pigs.

Along with the level of raising pigs improve constantly and to the become more meticulous raising of degree of in-pig feeding and management, in Swine Production, slower according to in-pig development of fetus in early stage, nutritional need is lower at present; Later stage is along with development of fetus is accelerated, and nutritional need increases, and guarantees that simultaneously sow accumulates nutrient, treats the Nutrition Management main points that postpartum milk secretion uses, and in-pig is generally taked the feeding manner of " front low, rear height ".Be that first half period of gestation is taked to raise than low nutrient level, latter half of gestation takes higher trophic level to raise.

Most of pig farms of planting are diets and hello amount of adjusting sow take gestation in 84 days as separation now, and the mode of feeding has:

1, sow whole gestational period is adopted a kind of diet (gestation material or lactation material), just increases and decreases in the amount of feeding;

2, extremely all use gestation stage diets behind the insemination of sows before pregnant 107 days, enter use nursery phase diet behind the delivery room;

3, most of pig farms are to begin to increase feeding capacity after 95 days at sow gestation.

The mode of more than feeding all is disadvantageous to the production of in-pig, concrete manifestation:

(1) the gestation material of feeding causes that sow lacking in condition, piglet birth weight are little, nursery phase is lost flesh seriously the full phase, and postweaning estrus is poor; Whole process is fed, and the lactation material causes that prevention of sow constipation increases, the difficult labour rate increases, and (MMA) increases (agalasisa or lactation be scarce to subtract disease for the endometritis that refers to sow, mammitis) postpartum " triad ".

(2) gestation was the sow mammogenesis critical period after 75 days, and excessively taking in energy can increase fat deposition in the mammary gland, thereby reduced the quantity of mammary gland secretory cell, made the breast tissue hypodevelopment, and lactation, low newborn syndrome (PHS) incidence increased.

(3) excessive the searching for food of latter half of gestation causes fat deposition, affects whole lactation period of feed intake, and the sow lactation reduces, and causes piglet nutritional deficiency, causes a series of harmful effects.

Summary of the invention

The object of the invention is to provides a kind of special in-pig expected date of childbirth feed for the sow of the expected date of childbirth.

For achieving the above object, the technical scheme taked of the present invention is:

A kind of in-pig expected date of childbirth feed is pulverized by the raw material of following mass parts, mix 55～65 parts of corns, 8～15 parts of Soybean Meaies, 2～10 parts of corn protein powders, 3～8 parts of malt root, 0～3 part in soya-bean oil, 2～8 parts in inferior powder, 3～5 parts of full-fat beans, 0～8 part of wheat bran, 0.4～0.6 part of microelement pre-mix material, 0.4～0.6 part of vitamin premix, 1.0～1.5 parts of calcium monohydrogen phosphates, 0.2～0.4 part of salt, 0.5～1.0 part of stone flour, 0.2～0.5 part of lysine, 0～0.2 part of threonine, 0.08～0.1 part of tryptophan, 0.3～0.8 part of yeast culture, 0.1～0.12 part in choline, 0.1～0.4 part in magnesium sulfate.

Raw material by following mass parts is pulverized, is mixed 55 parts of corns, 15 parts of Soybean Meaies, 2 parts of corn protein powders, 3 parts of malt root, 0 part in soya-bean oil, 8 parts in inferior powder, 5 parts of full-fat beans, 8 parts of wheat brans, 0.4 part of microelement pre-mix material, 0.4 part of vitamin premix, 1.0 parts of calcium monohydrogen phosphates, 0.2 part of salt, 1.0 parts of stone flours, 0.2 part of lysine, 0.2 part of threonine, 0.08 part of tryptophan, 0.3 part of yeast culture, 0.12 part in choline, 0.1 part in magnesium sulfate.

Raw material by following mass parts is pulverized, is mixed 57 parts of corns, 8 parts of Soybean Meaies, 10 parts of corn protein powders, 8 parts of malt root, 1.2 parts in soya-bean oil, 3 parts in inferior powder, 4 parts of full-fat beans, 4 parts of wheat brans, 0.5 part of microelement pre-mix material, 0.5 part of vitamin premix, 1.4 parts of calcium monohydrogen phosphates, 0.31 part of salt, 0.6 part of stone flour, 0.26 part of lysine, 0.12 part of threonine, 0.09 part of tryptophan, 0.7 part of yeast culture, 0.12 part in choline, 0.2 part in magnesium sulfate.

Raw material by following mass parts is pulverized, is mixed 65 parts of corns, 13 parts of Soybean Meaies, 5 parts of corn protein powders, 3.5 parts of malt root, 3 parts in soya-bean oil, 2 parts in inferior powder, 3 parts of full-fat beans, 0 part of wheat bran, 0.6 part of microelement pre-mix material, 0.6 part of vitamin premix, 1.5 parts of calcium monohydrogen phosphates, 0.4 part of salt, 0.5 part of stone flour, 0.5 part of lysine, 0 part of threonine, 0.1 part of tryptophan, 0.8 part of yeast culture, 0.1 part in choline, 0.4 part in magnesium sulfate.

Described vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 60～70 parts, 50 speed are large fertile: 0.8～1.2 part, and VM8106 Lu Tawei: 6～10 parts, 2% biotin: 1.5～2.5 parts, 0.1% chromogen: 3.5～4.5 parts, vitamin C: 1.5～2.5 parts, 50% vitamin E: 2.5～3.5 parts, phytase 5000:1.9～2.9 part, 10% ammonia is tieed up happy zinc: 6～10 parts, and 1 ‰ yeast seleniums: 3.5～4.5 parts.

Described vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 65.6 parts, 50 speed are large fertile: 1.0 parts, and VM8106 Lu Tawei: 8 parts, 2% biotin: 2 parts, 0.1% chromogen: 4 parts, vitamin C: 2 parts, 50% vitamin E: 3 parts, phytase 5000:2.4 part, 10% ammonia is tieed up happy zinc: 8 parts, and 1 ‰ yeast seleniums: 4 parts.

Described microelement pre-mix material is mixed by the raw material of following mass parts: 67～77 parts in dried microlith powder, 8～12 parts of ferrous fumarates, 2～3 parts of 31.8% manganese sulfates, 2～4 parts on 58% alkali zinc, 8～12 parts in 30% ferrous sulfate, 0.5～1.1 part of 58% alkali copper, 0.1～0.5 part of 3.2% calcium iodate, 0.2～0.6 part of 1% sodium selenite, 0.5～1.5 part of 1.2% cobalt chloride.

Described microelement pre-mix material is mixed by the raw material of following mass parts: 72 parts in dried microlith powder, 10 parts of ferrous fumarates, 2.5 parts of 31.8% manganese sulfates, 3 parts on 58% alkali zinc, 10 parts in 30% ferrous sulfate, 0.8 part of 58% alkali copper, 0.3 part of 3.2% calcium iodate, 0.4 part of 1% sodium selenite, 1.0 parts of 1.2% cobalt chlorides.

The present invention was defined as sow expected date of childbirth in conceived 90 days to antenatal 3 days during this period of time with sow, for this one-phase sow physilogical characteristics and nutritional need, take into account sow at the nutritional need of lactation, for sow provides a kind of special feed, be called in-pig expected date of childbirth feed.

In-pig expected date of childbirth feed provided by the invention, adopt energy and amino acid, the low calcium of medium level and add the feed technology such as yeast metabolism product, neutral detergent fiber (NDF), anion salt, the requirement of sow gestation later stage fetus Rapid development be can satisfy, rational birth weight and vigor guaranteed; Guarantee simultaneously sow under high abdominal pressure state the uterus and the contractile function of intestinal smooth, problems such as reducing difficult labour, bradytoia, postpartum three that sow occurs levy when childbirth, lactation improves sow production performance.

In-pig expected date of childbirth feed provided by the invention has the following advantages:

1. adopt energy and the amino acid of medium level, improve the linoleic acid level, when the expected date of childbirth suitably increases the sow feed intake, just can satisfy the nutritional need that latter half of gestation fetus Fast Growth is grown, guarantee the healthy vigor of rational birth weight and piglet, be higher than simultaneously the trophic level that gestation is expected, is lower than the lactation material, can guarantee the rational growth of livestock of sow and mammary development, can avoid again the problems such as sow generation constipation, bradytoia, difficult labour and postpartum " triad ".Following table is the Contrast on effect table before and after in-pig expected date of childbirth feed uses.

。

2. in prescription, add and use yeast metabolism product, anion salt etc., the contained oligosaccharides of additive, B group vitamin, neutral detergent fiber (NDF), anion salt etc. can guarantee sow gut flora balance and Gilt Uterus, the contractile function of intestinal smooth under high abdominal pressure situation, the problem of inertia of uterus when solving Farrowing reduces the generation of bradytoia and difficult labour; The enhancing of intestinal smooth contractile function can effectively reduce the sow puerperal constipation simultaneously.

3. pre-producing suitably reduced calcium content in the material, can satisfy sow to the demand of calcium when suitably increasing feed intake.And the antagonism that low calcium content and magnesium ion absorb calcium, impel sow to pass through the body regulatory function, improve the calcium absorbability, like this under high calcium and the state without antagonism before and after the childbirth, absorbing of the increase calcium of sow compensatory, calcium ion reaches peak value in the blood, satisfies the demand of nursery phase calcium.

4. contain a large amount of calcium ions in the breast milk, a large amount of lactation meetings cause blood calcium to reduce, so the low blood calcium of sow easy generation in postpartum.The problems such as calcium ion is that the contraction of muscle function is necessary, and the calcium ion shortage can cause sow dysstasia, apocleisis, uterus to be recovered slowly, postweaning estrus is difficult, the breeding that affects next tire is pregnant.Adding anion salt is according to male-female ionic equilibrium principle, adds anion salt antenatal to sow, and high anion level makes feed be acid, can effectively increase the concentration of blood Free Calcium, occurs thereby reduce low blood calcium.

The specific embodiment

Below in conjunction with specific embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited to this.

Embodiment 1

The raw material process of following mass parts is pulverized, is fully mixed, obtain in-pig expected date of childbirth feed:

55 parts of corns, 15 parts of Soybean Meaies, 2 parts of corn protein powders, 3 parts of malt root, 0 part in soya-bean oil, 8 parts in inferior powder, 5 parts of full-fat beans, 8 parts of wheat brans, 0.4 part of microelement pre-mix material, 0.4 part of vitamin premix, 1.0 parts of calcium monohydrogen phosphates, 0.2 part of salt, 1.0 parts of stone flours, 0.2 part of lysine, 0.2 part of threonine, 0.08 part of tryptophan, 0.3 part of yeast culture, 0.12 part in choline, 0.1 part in magnesium sulfate.

Wherein, vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 65.6 parts, 50 speed are large fertile: 1.0 parts, VM8106 Lu Tawei: 8 parts, 2% biotin: 2 parts, 0.1% chromogen: 4 parts, vitamin C: 2 parts, 50% vitamin E: 3 parts, phytase 5000:2.4 part, 10% ammonia is tieed up happy zinc: 8 parts, 1 ‰ yeast seleniums: 4 parts.

Wherein, microelement pre-mix material is mixed by the raw material of following mass parts: 72 parts in dried microlith powder, 10 parts of ferrous fumarates, 2.5 parts of 31.8% manganese sulfates, 3 parts on 58% alkali zinc, 10 parts in 30% ferrous sulfate, 0.8 part of 58% alkali copper, 0.3 part of 3.2% calcium iodate, 0.4 part of 1% sodium selenite, 1.0 parts of 1.2% cobalt chlorides.

Embodiment 2

57 parts of corns, 8 parts of Soybean Meaies, 10 parts of corn protein powders, 8 parts of malt root, 1.2 parts in soya-bean oil, 3 parts in inferior powder, 4 parts of full-fat beans, 4 parts of wheat brans, 0.5 part of microelement pre-mix material, 0.5 part of vitamin premix, 1.4 parts of calcium monohydrogen phosphates, 0.31 part of salt, 0.6 part of stone flour, 0.26 part of lysine, 0.12 part of threonine, 0.09 part of tryptophan, 0.7 part of yeast culture, 0.12 part in choline, 0.2 part in magnesium sulfate.

Wherein, vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 60 parts, 50 speed are large fertile: 0.8 part, VM8106 Lu Tawei: 6 parts, 2% biotin: 1.5 parts, 0.1% chromogen: 3.5 parts, vitamin C: 1.5 parts, 50% vitamin E: 2.5 parts, phytase 5000:1.9 part, 10% ammonia is tieed up happy zinc: 6 parts, 1 ‰ yeast seleniums: 3.5 parts.

Wherein, microelement pre-mix material is mixed by the raw material of following mass parts: 77 parts in dried microlith powder, 12 parts of ferrous fumarates, 3 parts of 31.8% manganese sulfates, 4 parts on 58% alkali zinc, 12 parts in 30% ferrous sulfate, 1.1 parts of 58% alkali copper, 0.5 part of 3.2% calcium iodate, 0.6 part of 1% sodium selenite, 1.5 parts of 1.2% cobalt chlorides.

Embodiment 3

65 parts of corns, 13 parts of Soybean Meaies, 5 parts of corn protein powders, 3.5 parts of malt root, 3 parts in soya-bean oil, 2 parts in inferior powder, 3 parts of full-fat beans, 0 part of wheat bran, 0.6 part of microelement pre-mix material, 0.6 part of vitamin premix, 1.5 parts of calcium monohydrogen phosphates, 0.4 part of salt, 0.5 part of stone flour, 0.5 part of lysine, 0 part of threonine, 0.1 part of tryptophan, 0.8 part of yeast culture, 0.1 part in choline, 0.4 part in magnesium sulfate.

Wherein, vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 70 parts, 50 speed are large fertile: 1.2 parts, VM8106 Lu Tawei: 10 parts, 2% biotin: 2.5 parts, 0.1% chromogen: 4.5 parts, vitamin C: 2.5 parts, 50% vitamin E: 3.5 parts, phytase 5000:2.9 part, 10% ammonia is tieed up happy zinc: 10 parts, 1 ‰ yeast seleniums: 4.5 parts.

Wherein, microelement pre-mix material is fully mixed by the raw material of following mass parts: 67 parts in dried microlith powder, 8 parts of ferrous fumarates, 2 parts of 31.8% manganese sulfates, 2 parts on 58% alkali zinc, 8 parts in 30% ferrous sulfate, 0.5 part of 58% alkali copper, 0.1 part of 3.2% calcium iodate, 0.2 part of 1% sodium selenite, 0.5 part of 1.2% cobalt chloride.

According to the 16th edition Chinese feed ingredient and nutritive value table in 2005, can calculate the nutrient composition content of three embodiment, as shown in the table.

Figure 201310341061X100002DEST_PATH_IMAGE004

。

Result of use is analyzed:

1. from 2010, carry out sow and produce in advance the material pilot production, mill trial results shows: use sow to produce in advance material, sow difficult labour rate is reduced to about 6% by former 23%, about average 1.5 ㎏ of piglet birth weight; More than 21 days (correction age in days) weaning weights of piglet, 6.5 ㎏, the rutting rate is more than 90% in the sow wean 7 days; Prevention of sow constipation and postpartum, " triad " incidence was below 10%.In addition, when reducing sow difficult labour rate, reducing stillborn foetus, sow treatment, health medicine expense be decrease also, and benefit is fairly obvious.

2. in-pig produces material in advance, it is the appropriate change feed formula, add part raw material commonly used or additive, produce without new pollutant in the use procedure, and the feed technology such as amino acid levels in the middle energy, low calcium employing, when reducing feed cost, reduce the use of the materials such as nitrogen phosphorus from the source, thereby reduce the discharge of these polluters, reduce nitrogen equal size in the ight soil, realize low emission, medicine uses and reduces simultaneously, make livestock and poultry cultivation be relieved to bottom line to the pollution that food produces, walk green sustainable ecologic breeding development.

3. guarantee sow under high abdominal pressure state the uterus and the contractile function of intestinal smooth, problems such as reducing difficult labour, bradytoia, postpartum three that sow occurs levy when childbirth, lactation improves sow production performance.Use sow to produce in advance material and will greatly improve sow production performance, increase the benefit of raising pigs, the market demand is wide.Produce in advance material the use sow and will greatly improve sow production performance, increase the benefit of raising pigs, the market demand is wide.

Above-described only is preferred embodiment of the present invention, does not limit to the present invention.Should be understood that for the person of ordinary skill of the art, under technology enlightenment provided by the present invention, can also make other equivalent modifications and improvement, all can realize purpose of the present invention, all should be considered as protection scope of the present invention.

Claims

1. an in-pig expected date of childbirth feed is characterized in that, is pulverized by the raw material of following mass parts, mix, 55～65 parts of corns, 8～15 parts of Soybean Meaies, 2～10 parts of corn protein powders, 3～8 parts of malt root, 0～3 part in soya-bean oil, 2～8 parts in inferior powder, 3～5 parts of full-fat beans, 0～8 part of wheat bran, 0.4～0.6 part of microelement pre-mix material, 0.4～0.6 part of vitamin premix, 1.0～1.5 parts of calcium monohydrogen phosphates, 0.2～0.4 part of salt, 0.5～1.0 part of stone flour, 0.2～0.5 part of lysine, 0～0.2 part of threonine, 0.08～0.1 part of tryptophan, 0.3～0.8 part of yeast culture, 0.1～0.12 part in choline, 0.1～0.4 part in magnesium sulfate.

2. described in-pig expected date of childbirth feed according to claim 1 is characterized in that, is pulverized, is mixed by the raw material of following mass parts, 55 parts of corns, 15 parts of Soybean Meaies, 2 parts of corn protein powders, 3 parts of malt root, 0 part in soya-bean oil, 8 parts in inferior powder, 5 parts of full-fat beans, 8 parts of wheat brans, 0.4 part of microelement pre-mix material, 0.4 part of vitamin premix, 1.0 parts of calcium monohydrogen phosphates, 0.2 part of salt, 1.0 parts of stone flours, 0.2 part of lysine, 0.2 part of threonine, 0.08 part of tryptophan, 0.3 part of yeast culture, 0.12 part in choline, 0.1 part in magnesium sulfate.

3. described in-pig expected date of childbirth feed according to claim 1 is characterized in that, is pulverized, is mixed by the raw material of following mass parts, 57 parts of corns, 8 parts of Soybean Meaies, 10 parts of corn protein powders, 8 parts of malt root, 1.2 parts in soya-bean oil, 3 parts in inferior powder, 4 parts of full-fat beans, 4 parts of wheat brans, 0.5 part of microelement pre-mix material, 0.5 part of vitamin premix, 1.4 parts of calcium monohydrogen phosphates, 0.31 part of salt, 0.6 part of stone flour, 0.26 part of lysine, 0.12 part of threonine, 0.09 part of tryptophan, 0.7 part of yeast culture, 0.12 part in choline, 0.2 part in magnesium sulfate.

4. described in-pig expected date of childbirth feed according to claim 1 is characterized in that, is pulverized, is mixed by the raw material of following mass parts, 65 parts of corns, 13 parts of Soybean Meaies, 5 parts of corn protein powders, 3.5 parts of malt root, 3 parts in soya-bean oil, 2 parts in inferior powder, 3 parts of full-fat beans, 0 part of wheat bran, 0.6 part of microelement pre-mix material, 0.6 part of vitamin premix, 1.5 parts of calcium monohydrogen phosphates, 0.4 part of salt, 0.5 part of stone flour, 0.5 part of lysine, 0 part of threonine, 0.1 part of tryptophan, 0.8 part of yeast culture, 0.1 part in choline, 0.4 part in magnesium sulfate.

5. according to claim 1 to 4 arbitrary described in-pig expected date of childbirth feeds, it is characterized in that, described vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 60～70 parts, 50 speed are large fertile: 0.8～1.2 part, VM8106 Lu Tawei: 6～10 parts, 2% biotin: 1.5～2.5 parts, 0.1% chromogen: 3.5～4.5 parts, vitamin C: 1.5～2.5 parts, 50% vitamin E: 2.5～3.5 parts, phytase 5000:1.9～2.9 part, 10% ammonia is tieed up happy zinc: 6～10 parts, and 1 ‰ yeast seleniums: 3.5～4.5 parts.

6. described in-pig expected date of childbirth feed according to claim 5 is characterized in that, described vitamin premix is mixed by the raw material of following mass parts, dried corn protein powder: 65.6 parts, 50 speed are large fertile: 1.0 parts, and VM8106 Lu Tawei: 8 parts, 2% biotin: 2 parts, 0.1% chromogen: 4 parts, vitamin C: 2 parts, 50% vitamin E: 3 parts, phytase 5000:2.4 part, 10% ammonia is tieed up happy zinc: 8 parts, and 1 ‰ yeast seleniums: 4 parts.

7. according to claim 1 to 4 arbitrary described in-pig expected date of childbirth feeds, it is characterized in that, described microelement pre-mix material is mixed by the raw material of following mass parts: 67～77 parts in dried microlith powder, 8～12 parts of ferrous fumarates, 2～3 parts of 31.8% manganese sulfates, 2～4 parts on 58% alkali zinc, 8～12 parts in 30% ferrous sulfate, 0.5～1.1 part of 58% alkali copper, 0.1～0.5 part of 3.2% calcium iodate, 0.2～0.6 part of 1% sodium selenite, 0.5～1.5 part of 1.2% cobalt chloride.

8. described in-pig expected date of childbirth feed according to claim 7, it is characterized in that, described microelement pre-mix material is mixed by the raw material of following mass parts: 72 parts in dried microlith powder, 10 parts of ferrous fumarates, 2.5 parts of 31.8% manganese sulfates, 3 parts on 58% alkali zinc, 10 parts in 30% ferrous sulfate, 0.8 part of 58% alkali copper, 0.3 part of 3.2% calcium iodate, 0.4 part of 1% sodium selenite, 1.0 parts of 1.2% cobalt chlorides.