SU1706481A1 - Nutrient medium for rooting bramble sprouts - Google Patents

Abstract

The invention relates to agriculture and biotechnology and can be used in the rooting process of blackberry shoots in vitro. The purpose of the invention is to increase the rooting rate of blackberry sprouts, to improve the development of the root system. The goal is achieved by those. that the rooting of shoots obtained in tissue culture is carried out on a nutrient medium in which gallic acid is additionally introduced in the following ratio of components, mg / g: ammonium nitrate 820-83: potassium nitrate 940-960; calcium chloride 210-230; magnesium sulfate 180-190; potassium phosphate odnzzkleschenny 80-90; iron sulfate 13.4-13.8; ethylendema-. microtetricotte sodium 18.5-18.9; boric acid 3.0-3.2; manganese sulphate 11.0-11.4: zinc serine oxide 4L-l, 5; potassium iodide 0.40-0.44; sodium molybdenum-acid 0.11-0.15: copper sulfate 0.011-0.015; cobalt chloride 0,011-0,015; myoinositis 4Q-60; thiamine, g | iridksin, nicotine: sislot 0.2-0.3; ascorbic acid, 0.4-0.6; imdolylmasl acid acid 0.9-1.1: gallic acid 0.5-1.0; sucrose 14000-1GOOO; agzr 6500-7500, the rest is water up to 1 l. On the medium, an increase in shoots rooting is provided. 1.6 times, root numbers 2 times and root pins 1.5 times. 1 tab.

Description

The invention relates to agriculture and biotechnology and can be used with the process of rooting blackberry shoots.

Nutrient media are known, including their composition as inductors of root-growth agents of growth-promoting auxinities, for example, icolyl butyric acid ().

The closest technical solution of the group of years of modified modification of power is Mupasish and Skuga. to which mK is applied (concentration of 1 mg / l.

The disadvantage of this environment is that ochus allows to achieve only a certain, often insufficiently high level of rootedness and development of the root system. This leads to the need to increase the duration of cultivation on the medium for rooting or rushing on media / devoid of hormones, which significantly lengthens the technological cycle of production of planting material and causes an increase in material and labor costs.

Increasing the concentration of l / i v C iols 1 mg / l contributes to an intense call / s. - h

ABOUT

about

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- ..:: cps c:; tz.;. i.i g fmir f P-V iY i :. KOpvi j cp v.y gite. (. T / Ji / llp JflH; i; iou mg / l: 820.0 9x 0.0 210.0 180.0

f /: -: f.;: .- Kali .-. o / i.H. I ate -.;:, 1.

. .

BG Gjo -.- i C; ota

Mg.rgg .ts ..isly

Zinc Sulfur: -. is,: ь: nd

CL / ii: -:.

 s o; ui; chocg. acid

Copper ccpi-: o-.

Ko D; rnt hl orys

Mf.C / .SSOIT

Thiamine

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HHKCTi.iHv: .a: -: AcKOp j-iC acid; . acid Ichdsl / g, 1: l n.) a kv.c / icta

GOL OE J5,;, C.; 013

With ..., - oh, ej ,,. j3

The volume of the rigger is up to 1 l. Installing the IELOT pi 5.5-5. 5. In the prepared review of the toss of the MI / L stage and at iirpeesHi -:; -. ext, dissolve it.

ITO ..TV .O T-PDCHU) ZSL1 ON SOSUDEM AND

pto.- lzv. g: mp de9pe,., and 0.9 egm (tompo Turus 1 GZ S) :. le-ic-Hiio min.

This is why the pots and are planted.

80.0

13.4

18.5

3.0

11.0

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it: CpC / i, 0 C HF L / SOUTH. O SISL010Y software C | j, illomiyu with L 3tr, ci N.S. .;., .. oG, n .. 1c uvv; pst; 1 p 1,5--1.6 rizl “isl cor ::: 5 o 1.G, 8 | j j.fi, root lengths about 1. J - 1.7 times.

P i I-m e R 2. The medium is prepared and selected by ccyutcc according to Example 1. Coc irin / /:: MI / l: Ammonium ri30i nok1: from /; th 825.0 Potassium nitrate 950.0 Calcium chlor. |.) is; ay 220.0 Magnesium sor: yukis /; nd 185.0 Potassium phosphorus Forno acidic acid 85.0 Iron with a layer 13.6 Etidendiag. immetrasate sodium 18.7 Boric acid 3.1 Manganese sulphate 11.2 Zinc sulphate 4,3 Potassium iodide 0,42 mog.nbdenopoxidic 0.13 Copper sulfate 0.013 Cobalt chloride 0.013 Myosium 50.0 Thiamine 0.25 Pyridoxine 0.25 Kikotinic acid 0.25 Ascorbic acid 0.5 Indolyl acid nchp 0.5 , 0 Gallic acid 0.75 Sucrose 15000 A. ap 7000 Water up to 1 l. Results of rooting on the attached medium in comparison with the known.

Medium Mu- Medium with galracige-skullic acid (known)

Ka / r |:; .i g.: - :; gno / c i.j and;. /. О К, 1Л | .ц: -. Й /iTif.1. / 30,0

f / i and p-i- / smr -: ic, r.: 1ГЮ.О Кзш й фос-Ч-.о: - ..й сда | ::.,.:;: 90.0 Жг; : ezo s; s; : 0 —signal 13.8 1 /; 4i l guide: iai-i /.i from pa and centr 1o.E r-o ;; g: ;;; to 11 with l review 3.-. .Vi a p h and e c: k rn about and with l i: and 11.4 Zinc sulfate 4.5 K tmi. E.tsi.ti. s 0.44: g: T {; s (.. fullnopen 0.15 M units of sulfuric acid and s .g: a 0.01b Goszlt chloride 0.015 Myozyositis 60.0 0.3 Pyridoxine 0.3 Nicotinic acid 0.3 Ascorbine Acid 0.6 Hydrostatic Acid 1.1 Gallic Acid 1.0 Sucrose 1-3000 Agor 7600 Water up to 1 L The effect of the environment on rootedness.

Medium Wy- Medium with galracige-Skulopa kisgaloto (known)

Rooted capacitance,%, through:

14 days 5G.O 1 month c 61.5

Number of roots

through

14 days1.7 1 month c 3.8

Root length

through

14 days3.3

1 month centr.1

An increase in the roots of the capacity by 1.2–1.6 times, the number of roots by 1.6–2.2 times, the length of the roots P., 1.7–2.0 times is observed.

The data obtained indicate the achievement of the technical effect in comparison with the known medium.

Vedv me P pg.hapilnuyu gallic acid. P and concentrations of 0.25 and 2.0 mg / l,

OCOtif: HHO 4epi: 3 DN-. Th KULYIE-. IRINATIONS,

Okoy. Ioh less effective than using 30i. air.i3 cci and dpa pyzons concentrations from 0.5 to 1.0 ;.; r /, i.

Rssu; to.: M; v; cno..i men: oo irddspz /; :: - us to yO; m. H.

We have p:; C; cnii; - and the number of gigt. -Str; w rooting shoots i -: - pre / Li. about vii: yluchg, er ohm nd g, s ;; s-cn medium,

Tysh. In a way, reproach :: he:; and ps5stsp e; koi, 1.1. but pr1; dlie sei.: oh pitsolny environment obeshepeg.zet increase in the growth rate of the oil by 1.0 times, the growth of roots in 2 times and d. roots 1.5 times compared sizoesgps / and nutrient medium.

Claims (1)

Nutrient medium for rooting blackberry shoots, containing ammonium nitrate, potassium nitrate, calcium chloride, magnesium sulphate, single-dispersed phosphate, iron sulfate, ethmlenediaminetetraacetate. sodium, boric acid, manganese sulphate, zinc sulphate, potassium iodide, sodium molyodenoic acid, copper sulphate, cobalt chloride, myo-inositol, thi-amine, pyridoxine, nicotinic acid, ascorbic acid, indolmellane acids, nicotinic acids, pyridoxine, nicotinic acid, ascorbic acid, indolmellane acids, nicotinic acids, nicotinic acid, pyridoxine, nicotinic acid, ascorbic acid, indolmmel acid acids, nicotinic acids, pyridoxine, nicotinic acid, ascorbic acid; that, in order to increase the rooted shoots and to improve the root capacity of the root system, it additionally contains gallic acid in the following ratio of components, mg / l: Ammonium nitrate 820-8 JO Potassium nitrate 940-960 Calcium chloride 210-230 Magnesium sulphate 180-190 phosphate acid one-displaced 80-90 Iron sulphate 13.4-13.8 Dehydrated diamembrantetracetate on three . 18.5-18.9 Boric acid 3-3.2 Manganese sulfate 11-11.4 Zinc sulfate 4.1-4.5 Potassium iodide 0.4-0.44 Sodium molybdenum-acid 0.11-0.15 Copper sulfate 0.011-0.015 Cobalt chloride 0,011-0,015 Myo-inosit 40-60 Tizmpn 0,2-0,3 Pyridoxine 0,2-0,3 Nicotinic acid 0,2-0,3 Ascorbinopg acid 0,4-0,6 Gullova acid on acid 0.9-1,1 Acid 0.5-1 Sucrose 14000-10000 Agar 6500-7500 Water The rest is up to 1 l