CN101617600A - Spring wheat planting method by trickle irrigation - Google Patents

Spring wheat planting method by trickle irrigation Download PDF

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Publication number
CN101617600A
CN101617600A CN200910113394A CN200910113394A CN101617600A CN 101617600 A CN101617600 A CN 101617600A CN 200910113394 A CN200910113394 A CN 200910113394A CN 200910113394 A CN200910113394 A CN 200910113394A CN 101617600 A CN101617600 A CN 101617600A
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stage
spring wheat
wheat
centimetres
planting method
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Inventor
樊新文
王东升
任晖
高杨
任志斌
段瑞萍
樊士福
李新平
庄维民
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148 Regiment Agricultural Construction No8 Division Xinjiang Production And C
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148 Regiment Agricultural Construction No8 Division Xinjiang Production And C
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A40/00Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
    • Y02A40/10Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
    • Y02A40/22Improving land use; Improving water use or availability; Controlling erosion

Abstract

The invention discloses a spring wheat planting method by trickle irrigation spring wheat, which mainly contains the steps of flattening soil, sowing, laying pipes and managing in a prophase, a metaphase and an anaphase in the yield. Compared with a conventional technology for planting general spring wheat, the method for planting the wheat can save water, land, fertilizer, power, mechanical force and seeds, achieve good effect of favorable irrigation and fertilization and even growth of wheat grass.

Description

Spring wheat planting method by trickle irrigation
Technical field:
The present invention relates to a kind of wheat planting method, particularly a kind of spring wheat planting method by trickle irrigation.
Background technology:
Cross arid or semiarid zone in the north, China's western region particularly, the spring wheat plantation has special advantages, the situation that has year after year economic crops such as plant cotton as soil, Xinjiang majority, because cotton harvesting season can have influence on the sowing of winter wheat under a lot of situations, but because the plantation output of present spring wheat is lower, make plantation spring wheat become the forced a kind of selection in farm, so its cultivated area is in reduced levels always.
Summary of the invention:
The purpose of this invention is to provide a kind of spring wheat planting method by trickle that can improve the spring wheat specific yield largely, particularly a kind of spring wheat planting method by trickle irrigation.
Of the present invention kind of method for planting mainly comprises following process
Broadcast preceding preparation:
Land readjustment: require routinely to carry out smooth to the soil;
Carry out at least a of stubble filling or autumn ploughing before being preferably in land readjustment.
Described stubble is irritated and is: carry out stubble and irritate after late September the previous year, early October finishes, and 65~70 cubic metres of mu irrigation quantities require to irrigate evenly, and are water-tight, no ponding.
Described autumn ploughing is: basal dressing behind the broken bar, and mu is executed urea 8~10Kg, and phosphate fertilizer 15Kg ploughs the degree of depth more than 28 centimetres, and level land, plough back reaches state to be broadcast.
Sowing: in spring during snow melting, when temperature stable by more than 1 ℃ and soil thaw 5~7 centimetres and can sow, 3.5~4.5 centimetres of seed levels, require seeding down evenly, do not replay, not broadcast leakage, seed level unanimity, earthing are good, suppression really, to broadcast the row end straight.
The basic seedling of the described amount of broadcasting preferably is controlled at 38~420,000 strain/mus.
Reseed: preferably reseed after finishing kind, timely polishing edge of a field rand, ditch and disconnected bar are accomplished the full seedling of full piece, can adopt edge of a field rand to draw the way of sand or plastic mulching for clayed ground, to save seedling from damage.
Preferably adopt before the above-mentioned sowing and spread soil or the breaking snow method that sands, to shift to an earlier date sowing time, be difficult to melt if any the shady place of wind break woods accumulated snow, the accumulated snow of preferably rooting out the Lin Yin place is beneficial to the locomotive sowing.
It is selected that the seed of sowing preferably carries out strictness earlier, quality reaches the above standard of breeding, it is purity 〉=99%, germination rate 〉=85%, cleanliness 〉=98%, water content≤13%, do not have oat and other grass-seed to sneak into, and seed is done following processing: every 100Kg seed adds 0.2~0.4Kg carbendazim and adds 0.05~0.15Kg triacontanol and convert water 2~4Kg and mix thoroughly.
Pipe laying: lay the drip irrigation pipe network that contains irrigate band (hollow billet) at least after above-mentioned sowing while or sowing, the hollow billet of described drip irrigation pipe network is laid by following requirement:
By capable 4~6 row/pipes of broadcasting of wheat, the conventional every trade of no hollow billet is apart from being between row and the row: 12~15 centimetres, the line-spacing of laying irrigate band row is: 15 centimetres~20 centimetres, and the shallow embedding of can burying of above-mentioned laying drip irrigation pipe, the irrigate band also can be laid in the face of land in the degree of depth≤3 centimetre.
For scarce moisture in the soil the plot good drip irrigation arm of cloth, looped pipeline and connect the irrigate band as early as possible, note checking, guarantee that the drip irrigation pipe network normally moves.
The water of emerging: for the situation that can not guarantee that former moisture in the soil is emerged, the short seedling that preferably drips, the water yield is joined with watermark between two irrigate bands and is got final product.
The field management of spring wheat generally is divided into early stage, mid-term and later stage three phases, i.e. seedling stage-shooting stage, shooting stage-heading stage and heading stage-maturing stage.
The three phases management expectancy that grows is as follows:
In earlier stage: the seedling stage-the shooting stage management
The environment of Spring Wheat Growth low temperature in early stage, many nitrogen, water foot helps prolonging the wheat children tassel developmental process, improve ear differentiation intensity, prolong productive tiller stage, improve rate of tillering panicle, early irritate a water and can suitably reduce the gentle temperature near the ground in ground, can promote the growth of root system, guarantee the healthy and strong growth of wheat.
Water carried out in 2 leaf to 3 leaf phases, executed urea 4~6Kg by drip irrigation system with water mu and made seed manure, 40~50 cubic metres of mu filling amounts.
Best chemical control once before the wheat jointing: mu is executed chlormequat 280~300 grams, methoxone 250~300 grams.
Mid-term: shooting stage-heading stage
At wheat during jointing stage, before promptly wheat was chosen flag, fringe formed the phase, strengthen fertilizer amount, and mu is poured water about 40~60 sides, mu executed a kind of in following at least: urea 8~10kg, potassium dihydrogen phosphate 1~2kg.
Later stage: heading stage-maturing stage
The wheat grain filling phase, heavy in order to increase grain, mu is poured water 30~40 cubic metres, executes a kind of in following with irritating mu at least simultaneously: urea 5~7kg and potassium dihydrogen phosphate 1~2kg, should stop to pour water as strong wind, and prevent to cause lodging.
There is the wheatland of early ageing trend in later stage, can suitably mends and execute urea 2-3kg/ mu, being beneficial to grouting, to increase grain heavy;
The wheat stage of wax ripeness will keep ground moistening, increase grain-weight, and the mu irrigation quantity is 15~25 cubic metres.
Be in good time harvest time middle dough stage, earlier arm, looped pipeline regained before the harvesting, after wheat has gathered in, reclaims the irrigate band again.
Compare with conventional spring wheat planting technology, use method plantation wheat of the present invention to have the following advantages:
1. water-saving: sublateral canal is not established in the field, reduces water delivery and the process of irrigation moisture seepage, evaporation from land surface, loss and the soil injustice inequality of pouring water, the wasting phenomenon that causes.Breeding time pours water by about original every mu of 400-450m3 in the field, reduces to 300~350m3, saves about 25%; The drip irrigation controllability is strong simultaneously, and moisture content permeates in the rhizosphere scope, supplies water in time, has improved the availability of water resource.
2. economize ground: plant spring wheat with the drip irrigation mode, the field does not need out sublateral canal, and land utilization rate can improve about 3~5%, and the actual number of keeping a full stand of seedings in field increases, and can overcharge nearly 8~100,000 fringes, help wheat increase yield for every mu.
3. economize fertile: fertilizer is water-soluble to apply with filling, and rich water is integrated, and fertilizer supply is convenient to root system and is in time absorbed in the territory, rhizosphere, has greatly improved fertilizer utilization ratio.
4. saving of labor: the field does not need manually to topdress, artificial broadcast application, manual priming, to drive sublateral canal, repair sublateral canal, receive flat sublateral canal before the wheat, cut work such as sublateral canal wheat with car, saves the field recruitment, has alleviated labour intensity, has improved labor productivity.
5. economize machine power: the field has saved that locomotive topdresses, operation process such as sublateral canal left by locomotive, flat sublateral canal, can save 10~15 yuan of machine power expenses for every mu.
6. province's seed: drip and emerge, supply water in time, soil moisture is even, and seed sprouting is good, and the emergence rate height can be saved seed 2~3Kg for every mu.
7. pour water, fertilization effect good can timely and appropriate discovery, supply water for fertilizer for crop equably, unlikelyly cause soil compaction or water and soil loss, and can make full use of tiny water source.Integrated, controlledization and automation have realized pouring water, have applied fertilizer.
8. the wheat seeding growing way is even: owing to pour water, apply fertilizer evenly, the wheat seedling growth gesture is strong, and colony and individuality can balanced, growths in phase, and the growth neat and consistent, has improved the results spike number of wheat.
Embodiment:
Embodiment 1:
1, soil condition: planting site, reclamation area, the northern Shihezi of Xinjiang Tianshan, require land readjustment, soil organic matter content greater than 1% or more, more than the alkali-hydrolyzable nitrogen 50PPM, rapid available phosphorus is greater than preceding batch of cotton field of 18PPM, soil pH value≤8.
2, kind is selected: the spring wheat variety of selection is " six days the new year "
(2) broadcast preceding preparation:
Stubble is irritated: carry out stubble and irritate after cotton harvesting finishes, 65~70 cubic metres of mu irrigation quantities require to irrigate evenly, and are water-tight, no ponding.
Autumn ploughing: basal dressing behind the broken bar, mu is executed urea 8~10Kg, and phosphate fertilizer 15Kg ploughs the degree of depth more than 28 centimetres, and level land, plough back reaches state to be broadcast.
Seed is prepared: seed should be strict selected, and quality reaches the breeding standard, and promptly purity 〉=99%, germination rate 〉=85%, cleanliness 〉=98%, water content≤13% do not have oat and other grass-seed to sneak into.
Seed treatment: every 100Kg seed adds the 0.1Kg triacontanol with the 0.3Kg carbendazim and converts water 3Kg and mix thoroughly.
Spring, breaking snow was striven early sowing: manually begin spread soil or sand breaking snow when treating snow melting spring, and the shady accumulated snow of locating in forest belt is sowed to help locomotive around rooting out the bar field.
Determining of date of seeding: take sowing in ice crust, stable by more than 1 ℃ when temperature, soil thaws 5~7 centimetres and can sow.The normal time does not generally carry out at early March, finishes before March 20.Present embodiment March 7 began sowing, finished sowing work on March 14 comprehensively.
Seeding method and hollow billet configuration: adopt 24 row sower drillings, a machine four pipes, a pipe six row.Conventional every trade is apart from being configured to 15 centimetres of line-spacing sowings, and the line-spacing of placing the irrigate band row is 20 centimetres,
Spacing between irrigate band and the irrigate band is 90 centimetres, and the irrigate band is with the sowing 3 centimetres of depths of shallow embedding of the time burying.
The amount of broadcasting is about 25kg/ mu, and basic seedling is controlled at about 400,000 strain/mus.
Seed level: 3.5~4.5 centimetres, require seeding down evenly, do not replay, not broadcast leakage, seed level unanimity, earthing are good, suppression really, to broadcast the row end straight.
Reseed: timely polishing edge of a field rand after finishing kind, ditch and disconnected bar are accomplished the full seedling of full piece.Clayed ground can adopt edge of a field rand to draw the way of sand or plastic mulching, to save seedling from damage.
Arrange the drip irrigation pipe network: after finishing kind, promptly the good drip irrigation arm of cloth, looped pipeline connect hollow billet, note checking, guarantee that the drip irrigation pipe network normally moves.
Field management
The water of emerging: looking soil moisture content, need drip as early as possible in the plot of can not former moisture in the soil emerging, and the water yield is joined with watermark between two irrigate bands and is advisable, and guarantees that limit row normally emerges.
The seedling stage-the shooting stage management
Be the weaning stage of wheat tri-leaf period.This moment, wheat plant was very responsive to nitrogen, phosphorus, and a water carried out in 2 leaf to 3 leaf phases, 40~50 cubic metres of mu filling amounts, and mu is executed urea 5Kg and is made seed manure.
The shooting stage-management at heading stage
May early and middle ten days, at wheat during jointing stage, before promptly wheat was chosen flag, fringe formed the phase, strengthen fertilizer amount, mu is poured water about 50 cubic metres, mu is executed urea 8~10kg, potassium dihydrogen phosphate 1~2kg.
Late May, before wheat heading, for forming big fringe, about 50 cubic metres of mu filling amounts, mu is executed urea 6kg, potassium dihydrogen phosphate 1~2kg.
The maturing stage management
The wheat grain filling phase, heavy in order to increase grain, mu is poured water 30~40 cubic metres, executes a kind of in following with irritating mu at least simultaneously: urea 5~7kg and potassium dihydrogen phosphate 1~2kg, should stop to pour water as strong wind, and prevent to cause lodging.
There is the wheatland of early ageing trend in later stage, can suitably mends and execute urea 2-3kg/ mu, being beneficial to grouting, to increase grain heavy;
The wheat stage of wax ripeness will keep ground moistening, increase grain-weight, and the mu irrigation quantity is 15~25 cubic metres.
Be in good time harvest time middle dough stage, earlier arm, looped pipeline regained before the harvesting, after wheat has gathered in, reclaims the irrigate band again.
Embodiment 2:
Compare with embodiment 1, the difference of present embodiment is that selected spring wheat variety is " nine days the new year ".
Seeding method and hollow billet configuration: adopt 24 row sower drillings, a machine four pipes, a pipe 6 row.Conventional every trade is apart from being configured to 13 centimetres of line-spacings sowings, and the line-spacing of placing the irrigate band row is 18 centimetres, the 3 centimetres of depths of shallow embedding of burying during with sowing, irrigate band, and the amount of broadcasting is about 23kg/ mu, and basic seedling is controlled at 380,000 strain/mus.
Embodiment 3:
Compare with embodiment 1, the difference of present embodiment is seeding method and hollow billet configuration: a pipe 5 row, and conventional every trade is apart from being configured to 15 centimetres of line-spacing sowings, and the line-spacing of placing the irrigate band row is 20 centimetres.
Embodiment 4:
Compare with embodiment 1, the difference of present embodiment is seeding method and hollow billet configuration: a pipe 4 row, and conventional every trade is apart from being configured to 15 centimetres of line-spacing sowings, and the line-spacing of placing the irrigate band row is 20 centimetres.
Embodiment 5:
Compare with embodiment 1, the difference of present embodiment is seeding method and hollow billet configuration: a pipe 6 row.Conventional every trade is apart from being configured to 12 centimetres of line-spacing sowings, and the line-spacing of placing the irrigate band row is 16 centimetres,
Embodiment 6:
Compare with embodiment 1, the difference of present embodiment is after seedling stage, enter the shooting stage before mu execute chlormequat 280~300 grams, methoxone 250~300 grams.

Claims (10)

1, a kind of spring wheat planting method by trickle irrigation is characterized in that mainly comprising following process:
Land readjustment: require routinely to carry out smooth to the soil;
Sowing: in spring during snow melting, when temperature stable by more than 1 ℃ and soil thaw 5~7 centimetres and can sow; 3.5~4.5 centimetres of seed levels, the basic seedling of the amount of broadcasting is controlled at 38~420,000 strain/mus;
Reseed: after planting reseed timely polishing edge of a field rand, ditch and disconnected bar;
Pipe laying: after sowing while or sowing, lay the drip irrigation pipe network that contains the irrigate band at least, lay by following requirement the irrigate band of described drip irrigation pipe network: by capable 4~6 row/pipes of broadcasting of wheat, the conventional every trade distance of no irrigate band is 12~15 centimetres between row and the row, the line-spacing of laying the irrigate band row is 15 centimetres~20 centimetres, the drip irrigation pipe shallow embedding of burying, the degree of depth≤3 centimetre;
The field management of spring wheat is divided into early stage, mid-term and later stage three phases, i.e. seedling stage-shooting stage, shooting stage-heading stage and heading stage-maturing stage, the three phases management expectancy that Spring Wheat Growth is grown is as follows:
In earlier stage: seedling stage-shooting stage
Water carried out in 2 leaf to 3 leaf phases, executed urea 4~6Kg by drip irrigation system with water mu and made seed manure, 40~50 cubic metres of mu filling amounts;
Mid-term: shooting stage-heading stage
At wheat during jointing stage, before promptly wheat was chosen flag, fringe formed the phase, strengthen fertilizer amount, and mu is poured water about 40~60 sides, mu executed a kind of in following at least: urea 8~10kg, potassium dihydrogen phosphate 1~2kg;
Later stage: heading stage-maturing stage
The wheat grain filling phase, mu is poured water 30~40 cubic metres, simultaneously executes a kind of in following with irritating mu at least: urea 5~7kg and potassium dihydrogen phosphate 1~2kg;
Stage of wax ripeness will keep ground moistening, and the mu irrigation quantity is 15~25 cubic metres.
2, spring wheat planting method by trickle irrigation according to claim 1 is characterized in that adopting before the described sowing and spreads soil or the breaking snow method that sands, and is difficult to melt if any the shady place of wind break woods accumulated snow, then adopts the accumulated snow of rooting out Lin Yin place to be beneficial to locomotive and sows.
3, spring wheat planting method by trickle irrigation according to claim 1 is characterized in that for the situation that can not guarantee that former moisture in the soil is emerged, the short seedling that drips, and the water yield is joined with watermark between two irrigate bands and is got final product.
4, according to claim 1,2 or 3 described spring wheat planting method by trickle irrigation, it is characterized in that the preceding chemical control of wheat jointing once: mu is executed chlormequat 280~300 grams, methoxone 250~300 grams.
5, according to claim 1,2 or 3 described spring wheat planting method by trickle irrigation, it is characterized in that the later stage is had the wheatland of early ageing trend, mend and execute urea 2~3kg/ mu.
6, spring wheat planting method by trickle irrigation according to claim 4 is characterized in that the later stage is had the wheatland of early ageing trend, mends and executes urea 2~3kg/ mu.
7,, it is characterized in that carrying out before the described land readjustment that stubble is irritated or autumn ploughing at least a according to claim 1,2 or 3 described spring wheat planting method by trickle irrigation:
Described stubble is irritated and is: carry out stubble and irritate after late September the previous year, early October finishes, 65~70 cubic metres of mu irrigation quantities;
Described autumn ploughing is: basal dressing behind the broken bar, and mu is executed urea 8~10Kg, and phosphate fertilizer 15Kg ploughs the degree of depth more than 28 centimetres, and level land, plough back reaches state to be broadcast.
8, spring wheat planting method by trickle irrigation according to claim 4 is characterized in that carrying out before the described land readjustment that stubble is irritated or autumn ploughing at least a:
Described stubble is irritated and is: carry out stubble and irritate after late September the previous year, early October finishes, 65~70 cubic metres of mu irrigation quantities;
Described autumn ploughing is: basal dressing behind the broken bar, and mu is executed urea 8~10Kg, and phosphate fertilizer 15Kg ploughs the degree of depth more than 28 centimetres, and level land, plough back reaches state to be broadcast.
9, spring wheat planting method by trickle irrigation according to claim 5 is characterized in that carrying out before the described land readjustment that stubble is irritated or autumn ploughing at least a:
Described stubble is irritated and is: carry out stubble and irritate after late September the previous year, early October finishes, 65~70 cubic metres of mu irrigation quantities;
Described autumn ploughing is: basal dressing behind the broken bar, and mu is executed urea 8~10Kg, and phosphate fertilizer 15Kg ploughs the degree of depth more than 28 centimetres, and level land, plough back reaches state to be broadcast.
10, spring wheat planting method by trickle irrigation according to claim 4, it is characterized in that described seed does following processing: every 100Kg seed adds carbendazim 0.2~0.4Kg, triacontanol 0.05~0.15Kg converts water 2~4Kg and mixes thoroughly.
CN200910113394A 2009-07-24 2009-07-24 Spring wheat planting method by trickle irrigation Pending CN101617600A (en)

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Cited By (18)

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CN102227977A (en) * 2011-04-16 2011-11-02 常天佑 Method for improving cold resistance of late-sowed wheat
CN103430811A (en) * 2013-07-01 2013-12-11 扬州大学 Irrigation method of controlling low-limit soil water of wheat
CN103430676A (en) * 2013-09-02 2013-12-11 江苏丘陵地区镇江农业科学研究所 Nitrogen fertilizer applying method for increasing gluten content of strong gluten wheat
CN104350854A (en) * 2014-11-08 2015-02-18 内蒙古农业大学 Spring wheat fertilizing method aiming at salinized farmland
CN104380990A (en) * 2014-11-17 2015-03-04 安徽省龙海种业有限公司 Middle-late stage wheat management method
CN104472201A (en) * 2014-12-30 2015-04-01 石河子大学 Construction method of drip irrigation spring wheat super-high-yield population structure
CN104663227A (en) * 2015-03-13 2015-06-03 淮安市农业技术推广中心 Straw returning wheat soil moisture sowing full stand seedling strengthening method for use in northern Jiangsu area
CN105027923A (en) * 2015-07-28 2015-11-11 太仓市天开林果专业合作社 Energy-saving and consumption-reducing cultivation method for spring wheat capable of effectively utilizing wheat stubble straws
CN105191636A (en) * 2015-10-12 2015-12-30 石河子大学 Northern Xinjiang drop irrigation spring wheat planting method
CN106613750A (en) * 2016-10-10 2017-05-10 山东农业大学 Water and fertilizer integration water and fertilizer saving method for winter wheat
CN107743832A (en) * 2017-04-06 2018-03-02 许明东 Farmland shallow embedding formula drip irrigation and ditch ridge crop rotation overlay film bow film implantation methods
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CN110741887A (en) * 2019-10-24 2020-02-04 新疆农业科学院粮食作物研究所 High-yield planting method for spring wheat original seeds
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CN102227977A (en) * 2011-04-16 2011-11-02 常天佑 Method for improving cold resistance of late-sowed wheat
CN103430811B (en) * 2013-07-01 2015-07-15 扬州大学 Irrigation method of controlling low-limit soil water of wheat
CN103430811A (en) * 2013-07-01 2013-12-11 扬州大学 Irrigation method of controlling low-limit soil water of wheat
CN103430676A (en) * 2013-09-02 2013-12-11 江苏丘陵地区镇江农业科学研究所 Nitrogen fertilizer applying method for increasing gluten content of strong gluten wheat
CN104350854A (en) * 2014-11-08 2015-02-18 内蒙古农业大学 Spring wheat fertilizing method aiming at salinized farmland
CN104380990A (en) * 2014-11-17 2015-03-04 安徽省龙海种业有限公司 Middle-late stage wheat management method
CN104472201A (en) * 2014-12-30 2015-04-01 石河子大学 Construction method of drip irrigation spring wheat super-high-yield population structure
CN104663227B (en) * 2015-03-13 2016-02-24 淮安市农业技术推广中心 North Jiangsu Area straw incorporation wheat soil moisture sowing full stand method in strong sprout
CN104663227A (en) * 2015-03-13 2015-06-03 淮安市农业技术推广中心 Straw returning wheat soil moisture sowing full stand seedling strengthening method for use in northern Jiangsu area
CN105027923A (en) * 2015-07-28 2015-11-11 太仓市天开林果专业合作社 Energy-saving and consumption-reducing cultivation method for spring wheat capable of effectively utilizing wheat stubble straws
CN108323388A (en) * 2015-09-16 2018-07-27 苏建华 Wheat planting method
CN105191636A (en) * 2015-10-12 2015-12-30 石河子大学 Northern Xinjiang drop irrigation spring wheat planting method
CN106613750A (en) * 2016-10-10 2017-05-10 山东农业大学 Water and fertilizer integration water and fertilizer saving method for winter wheat
CN107743832A (en) * 2017-04-06 2018-03-02 许明东 Farmland shallow embedding formula drip irrigation and ditch ridge crop rotation overlay film bow film implantation methods
CN110063227A (en) * 2017-10-26 2019-07-30 遵义市播州区籼农农副产品加工厂 A kind of wheat planting method
CN108117449A (en) * 2018-01-31 2018-06-05 山东省农业科学院农业资源与环境研究所 A kind of disease-resistant type wood vinegar Water soluble fertilizer and preparation method and application
CN110741887A (en) * 2019-10-24 2020-02-04 新疆农业科学院粮食作物研究所 High-yield planting method for spring wheat original seeds
CN111480539A (en) * 2020-04-10 2020-08-04 马兆亭 Northern Xinjiang wheat planting method
CN111480539B (en) * 2020-04-10 2021-11-09 马兆亭 Northern Xinjiang wheat planting method
CN112586291A (en) * 2020-12-11 2021-04-02 河南省农业科学院小麦研究所 Lodging-resistant stable-yield cultivation method for wheat
CN115486349A (en) * 2022-07-05 2022-12-20 北京国垦节水科技有限公司 Wide-narrow row large-flow drip irrigation planting technology for wheat planting

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