What is Decree No. 3 / 2018 Coll.?

Decree No. 3 / 2018 Coll., amending Decree No. 378 / 2010 Coll., establishing the species list of grown plants, as amended by Decree No. 42 / 2014 Coll., and other related Regulations — Decree amending Decree No. 378 / 2010 Coll., establishing the species list of grown plants, as amended by Decree No. 42 / 2014 Coll., and other related Regulations.

When it became Decree No. 3 / 2018 Coll. effectiveness?

Decree No. 3 / 2018 Coll. became effective 24.01.2018.

Is Decree No. 3 / 2018 Coll. still valid?

Yes, Decree No. 3 / 2018 Coll. is still valid and effective.

Decree No. 3 / 2018 Coll.

Decree amending Decree No. 378 / 2010 Coll., establishing the species list of grown plants, as amended by Decree No. 42 / 2014 Coll., and other related Regulations

Valid Effective from 24.01.2018

ČÁST PRVNÍ Čl. I ČÁST DRUHÁ Čl. II ČÁST TŘETÍ Čl. III ČÁST ČTVRTÁ Čl. IV

DECLARATION

of 3 January 2018

amending Decree No 378 / 2010 Coll., establishing a species list of cultivated plants, as amended by Decree No 42 / 2014 Coll., and other related Regulations

The Ministry of Agriculture shall determine, pursuant to § 3 (14) (e), § 3a (11), § 4 (15) (a), § 6 (8) (c) and (d) and § 35c (5) of Act No. 219 / 2003 Coll., on the putting into circulation of seeds and propagating plants and on the amendment of certain laws (Act on the circulation of seeds and seed), as amended by Act No. 178 / 2006 Coll., Act No. 96 / 2009 Coll., Act No. 300 / 2009 Coll., Act No. 331 / 2010 Coll., Act No. 54 / 2012 Coll. and Act No. 295 / 2017 Coll.:

ČÁST PRVNÍ

Amendment of the Ordinance establishing the species list of grown plants

Čl. I

Decree No 378 / 2010 Coll., establishing the species list of grown plants, as amended by Decree No 42 / 2014 Coll., is amended as follows:

1. At the end of footnote 1, the sentence "Commission Implementing Directive (EU) 2016 / 2109 of 1 December 2016 amending Council Directive 66 / 401 / EEC as regards the inclusion of new species and the botanical name of the species Lolium x boucheanum Kunth shall be added to the separate line. '

2. In point 1.2.1 of the Annex, "Lolium x boucheanum Kunth 'is replaced by" Lolium x hybridum Hausskn'.

3. In the Annex, in point 1.2.3. Other fodder crops shall be replaced by "Tangerines'.

ČÁST DRUHÁ

Amendment of the Decree on sampling requirements, procedures and methods of seed and seed testing

Čl. II

Decree No. 61 / 2011 Coll., on the requirements for sampling, procedures and methods for testing seed and seed, as amended by Decree No. 410 / 2013 Coll., is amended as follows:

2. In Annex 1, points 2.1 to 6 read:

"2.1. Methods of incremental sampling

2.1.1. Point (Nobbe) Sample

(1) It consists of a tube with an opening at the pointed end. The seed passes through the tube and is collected into a suitable container. The minimum inside diameter of the Nobbe sampling device shall be sufficiently wide to allow free and smooth flow of seeds and impurities into the sampling device. The outer maximum sample diameter is five times the maximum sample seed diameter. The width of the hole in the sample casing is at least twice the maximum diameter of the sampled seeds or impurities that may occur in the batch, the length of the hole is three to four times the width of the hole.

(2) In the case of use, the sampling device with an opening facing downwards shall be inserted into the seed at an angle of about 30 ° relative to the horizontal plane. The sample inserted into the required depth shall be rotated around the longitudinal axis by 180 ° and then removed from the packaging at a constantly decreasing rate, shaking gently to maintain a uniform flow of seed. The seed is collected in a suitable container.

2.1.2. Two-casing sampling device

(1) It consists of an inner tube which fits freely into the inside of the outer tube, but which is so tight that neither seeds nor impurities can slip into the gap between them. The outer tube has a firm pointed end. The holes are carved into the walls of both pipes, so that the inner tube cavity can be opened and closed by turning both pipes against each other. The recommended dimensions of the sampling device are: the length of the sampling device such that the sampling device reaches the opposite wall of the packaging; in the case of vertical sampling of bags, the double-shell sampling device must reach the bottom of the bags; the width of the hole is at least twice the maximum diameter of the seeds or impurities that may be present in the lot; the length of the opening is at least twice the width of the hole; the maximum length of the opening may be as long as the whole sampling unit. The minimum internal diameter of the two shell samples must be sufficiently wide to allow for free and smooth flow of seeds and impurities into the sampling apparatus.

(2) The two-shell sampling device can be used in a horizontal, vertical or oblique position. A two-shell sampling device with holes arranged in spirals, which are opened gradually from tip to handle, may only be used for seeds smaller than the seed of the species Triticum aestivum.

(3) If a double-shell sampling device is used vertically, it shall either have compartments dividing the inner space of the sampling unit into several chambers or have holes arranged into a spiral.

(4) The sample shall be inserted into the seed in a closed state, the tube shall rotate each other so that the cracks of the inner tube are opened and shaken slightly to fill with the seed. It is then closed again, withdrawn and emptied into a suitable hopper or on a suitable pad. The closure must be carried out in such a way as not to damage the seed. A single incremental sample shall be considered as the whole content of such a type of sampling device, not the content of one of its chambers.

2.1.3. Sample for large costs and bulk seed

(1) This type of sampling device may be used for seeds less than the seed of the species Triticum aestivum.

(2) It consists of a separate chamber attached to the handle. The lower part of the chamber is a conical shape with a pointed end. To achieve greater depth, the handle can be gradually extended by screwing other attachments. In the chamber there is a closing system which can be formed either by a ring on the outside of the tool or by a wing connected with a door or a valve pressed by a spring. Some of these samples can be closed before being pulled from the sampling site, others cannot be closed, so the filled chamber is pulled out in an open state. For all species, the minimum inside diameter of the chamber may be about 35 mm and 75 mm high.

(3) The sample shall be placed in the seed in a closed state, gently pressed so that the tip reaches the desired position, pulled back approximately 10 cm, or rotated (according to the sealing system), shaken slightly to fully fill with the seed, carefully closed, if possible, pulled out and emptied into a suitable container. The closure must be carried out in such a way as not to damage the seed.

2.1.4. hand sampling

(1) The sampling method is most appropriate for the following genera: Agryron, Agrostis, Alopecurus, Anthony anthus, Arrhenatherum, Bromus, Cynthia, Cynosurus, Dactylis, Descampsia, Elytrigia, Festuca, Holcus, Lolium, Panicum, Poa and Trisetum. This method is also most appropriate for the sampling of seeds which could be damaged by the use of samples such as large seed legumes, seeds with wings or seeds with low moisture, as well as for seed belts and seed mats.

(2) For the collection of incremental samples of hands from seed in packages, all places within packages shall be accessible. For this purpose, the packaging may be partially or completely emptied during sampling. Packs in which all layers of seed are not accessible by normal opening may need to be cut, sampled and then re-packed.

(3) Hand sampling shall be carried out by inserting a clean open hand into the required depth of the seed, clamping the palm and pulling the hand out, making sure that the fingers around the captured seed are firmly clamped so that no seed can escape from the palm.

2.1.5. Sampling using an automatic sampling device

2.1.5.1. Use of automatic sampling device

(1) Partial samples shall be taken from the seed stream when filling into packaging.

(2) Requirements for the operation of an automatic sampling device

(a) the incremental samples shall be taken from the seed stream evenly throughout its cross-section and the frequency of their collection shall be controlled by a time switch, the intervals between the incremental samples being uniform;

(b) the incremental samples are carried by a line from the sampling device to the container in the collection cabinet;

(d) the contents of one vessel must correspond to the size of the aggregate sample;

(e) the collection cabinet shall be lockable;

(f) the sampling cabinet, the time switches and all seed management connections from the sampling unit to the collection cabinet shall be sealed;

(g) the sampling agent must not damage or select the seed between the seeds on the basis of their size, hoverness or plurality.

(3) The automatic sampling device shall be installed according to the manufacturer's technological conditions and its operation for the purpose of official sampling shall be approved by the Institute.

(4) When using an automatic sampling device for the purpose of official sampling, this sampling device shall be locked and accessible only to an authorised sampling operator.

(5) Additional requirements for the operation and security of an automatic sampling device

(a) the sampling mechanism, including the time switch, shall be placed in a lockable housing;

(b) the piping between the sampling device and the collection cabinet shall be so long that the fall of seed into the collection vessel cannot cause any damage to the seed sampled;

(c) if the manifold is divided and duplicated above the collection cabinet, a sample shall be collected for the laboratory of the cleaning station into a container outside the collection cabinet;

(d) the collection cabinet is firmly attached to the ground and secured against any displacement, opening by itself and shall comply with the following conditions:

1. there shall be no holes in the shell other than a hole for the seed supply, a slot for the insert of the ticket indicating the lot number, an opening for the outlet of the external control mechanism of the rotating device with collecting vessels and a sufficiently spacious handling hole for the removal of sample collection vessels;

2. inside it contains a rotary device with individual collecting containers. The control of this device shall be so designed that it is possible to operate the fifth wheel in only one direction within 360 ° outside the case without the possibility of reversing; the reverse movement of the fifth wheel, or turning to the starting position, is only possible when the cabinet is open,

3. the individual containers must be evenly distributed so that, even if more seed is present, the sample cannot be degraded by mixing seed from several containers,

4. the key to the cabinet has a sample maker, the second key is stored in the sample-sealed envelope at the responsible cleaner's office,

(e) the time intervals of the switch shall be set so that, in the time needed to clean the seed lot, the sampling of such incremental samples is carried out, corresponding to approximately four times the laboratory sample by weight.

(6) If the time pulse setting does not correspond to the capacity of the collection vessel, two collection vessels with the prescribed marking may be used for a sample from one batch.

(7) The operation of the automatic sampling device shall be recorded in the book of the automatic sampling device with data identical to those on the leaves thrown into the collection vessels supplemented by the type, variety and weight of the sampled lot. This register shall be checked by the staff member of the Institute.

2.1.5.2. Procedure for operating an automatic sampling device

(1) Before cleaning the seed lot, the operator shall throw a ticket with the lot number, date and hour of start of cleaning the lot into the collection container with a slot and record in the book of the automatic sampling device.

(2) Upon completion of the cleaning of the lot, the operator will again throw a ticket with the lot number, the date and hour of completion of the cleaning of the lot and record in the book of the automatic sampling device.

(3) They turn the turntable one place so that under the seed supply there is an empty container, and throw the ticket for the next lot.

(4) The procedure shall be repeated as many times as the number of lots is prepared between the individual official sampling of samples by the sampling agent or if the capacity of the collection cabinet is sufficient.

2.1.5.3. Sampling procedure

(1) The sample shall take aggregate samples from the cabinet and prepare a laboratory, reserve and, where appropriate, other official sample, checking the conformity of the data on the two leaves thrown into the container with the data in the records submitted.

(2) After all the samples have been taken, the collecting vessels shall be placed back on a rotary device which shall be adjusted to the starting position and the collection cabinet shall be closed and locked.

(3) If the sample in the collection container does not have the necessary mass, the whole new sampling shall be carried out by hand.

2.1.6. Manual sampling of seed stream

Partial samples may be taken from the seed stream using hand tools when filling the packaging, provided that the incremental samples are taken from the seed stream evenly throughout its cross-section and that the seeds from the instrument are not reflected or otherwise look spontaneously.

3. Number of incremental samples in relation to the type and number of packages

(a) For packages containing 15 to 100 kg of seed, the minimum number of incremental samples referred to in Table 1 shall be:

Table 1 - Minimum number of incremental samples taken for seed lots in packages containing up to and including 100 kg of seed

Počet obalů v partii	Minimální počet dílčích vzorků
1	5 dílčích vzorků
2 – 4	3 dílčí vzorky z každého obalu
5 – 8	2 dílčí vzorky z každého obalu
9 – 15	1 dílčí vzorek z každého obalu
16 – 30	15 dílčích vzorků, každý z jiného obalu
31 – 59	20 dílčích vzorků, každý z jiného obalu
60 – 154	30 dílčích vzorků, každý z jiného obalu
155 – 400	1 dílčí vzorek z každých 5 obalů, každý vzorek z jiného obalu
401 – 566	80 dílčích vzorků, každý z jiného obalu
567 a více	1 dílčí vzorek z každých 7 obalů, každý vzorek z jiného obalu

(b) In the case of packages containing less than 15 kg of seed, the packaging shall be merged into sampling units not exceeding 100 kg, such as 20 packages of 5 kg, 33 packages of 3 kg or 100 packages of 1 kg. The sampling units shall then be considered as packaging and sampling shall take place in accordance with Table 1.

(c) In the case of seed in pellets, granules, seed bands and seed mats, packages containing less than 300 000 seeds shall be merged into sampling units not exceeding 2 000 000 seeds. The sampling units shall then be considered as packaging and sampling shall take place in accordance with Table 1.

(2) For the sampling of seed in packages containing more than 100 kg of seed (including bulk seed) or from a stream of seed during filling of packages, the minimum number of incremental samples taken as shown in Table 2 shall be respected:

Table 2 - Minimum number of incremental samples taken for seed lots in packages containing more than 100 kg of seed or from a seed stream

Hmotnost partie	Minimální počet dílčích vzorků
do 500 kg	nejméně 5 dílčích vzorků
501 až 3 000 kg	jeden dílčí vzorek z každých 300 kg, nejméně však 5 dílčích vzorků
3 001 až 20 000 kg	jeden dílčí vzorek z každých 500 kg, nejméně však 10 dílčích vzorků
20 001 a více kg	jeden dílčí vzorek z každých 700 kg, nejméně však 40 dílčích vzorků

(3) When sampling a lot with a number of packages of 15 or less, the same number of incremental samples shall be taken from each package regardless of their size. The minimum number of incremental samples taken for packaged seed (seed pelleted, incubated, granulated, seabed and mats) is given in Tables 1 and 2.

4. Sampling to determine warehouse pests

(1) For the determination of storage pests, the incremental samples shall be taken directly into an airtight container and the aggregate sample thus obtained shall be sent directly for analysis. Samples shall be taken alternately

(a) from the bottom of the bag (up to 200 mm high),

(b) part of a bag exceeding 200 mm from the circumference layer;

(2) The number of incremental samples is set out in Table 1.

(3) Semi-samples shall be taken from seed in bulk packaging and bulk seed in places where storage pests can be expected to occur (cloudy places, places near the floor, walls, etc.).

(4) The size of samples for the detection of pests in storage is the same as the prescribed weight for the laboratory sample, except for oil and fibre plants for which 250 g is prescribed.

5. Preparation of the aggregate and laboratory sample

(1) The aggregate sample is obtained by merging the incremental samples if they appear uniform. If the incremental samples do not appear uniform, sampling of the lot shall be stopped. If the incremental samples are collected directly in a single container, the contents of the container may be considered as a aggregate sample only if the seed in the container appears to be uniform. Otherwise, the contents of the container cannot be used to obtain a laboratory sample. When mixing the aggregate sample by repeated use of one of the mechanical dividers, the sample shall not be mixed manually between each use of the angel.

(2) If it is difficult to mix and reduce the aggregate sample under storage conditions, it is delivered to the laboratory for reduction. This is only applicable where a reserve sample is not required. If the aggregate sample is of an appropriate size, it shall be considered a laboratory sample without reduction.

(3) The laboratory sample, the reserve sample and, where appropriate, any other sample at the supplier's request is prepared by mixing and reducing the aggregate sample to the appropriate size, by one of the following methods, and may be combined when reducing one sample; in the case of a large aggregate sample, one of the incremental sampling methods may be used.

(a) Mechanical separation is suitable for all seed species, except for severely spreading species. Different types of mechanical dividers shall be carried out which shall meet the following requirements:

1. to provide at least one representative part of the total quantity of the sample divided,

2. to divide the heterogeneous material or mixture of seeds of different sizes and different physical characteristics of seeds and additives correctly,

3. there shall be no change in the composition of the cut-off material and the function of the dilly during division (electrostatic charge, capture and additional release of certain components),

4. maintain a steady working speed of moving parts exceeding 1 m / s and the diameter of the paths through which the material passes shall be at least 2,5 times the maximum seed size;

5. maintain a constant dividing ratio with a tolerance of ± 3%.

b) Method of dividing hands - its use is limited to the families Anthony Anthananthus, Arrhenatherum and Trisetum. For all other species it may only be used to obtain test samples in the health testing laboratory. The seed is spread evenly onto a smooth clean surface, mixed thoroughly with a straight edge with a spatula and formed into a pile which then is divided in half, three times in a row in total, so that eight parts are formed. These will be arranged in two rows of four and then mixed all odd parts together and all even parts together, creating two halves of the original seed quantity.

(c) Method of dividing by spoon - recommended for the preparation of a sample for health testing, for other tests limited to species with seeds smaller than wheat seeds. After pre-mixing, the seed shall be spread evenly onto a tray which is then no longer shaken, and the seed shall be collected from at least five randomly selected places using a spoon and spatula.

d) Modified halving method - the tool consists of a tray and a grid which missing the bottom of half the cubic cells. After preliminary mixing, the seed shall be spread evenly onto the grid. After lifting the grid, approximately half of the sample will remain on the tray.

(4) After one test sample or half test sample has been obtained, the remainder of the laboratory sample shall be re-mixed before preparation of the next test sample or half test sample.

(5) When preparing the sample for the moisture test, it shall be carried out to minimise changes in the moisture content of the sample. The seed must not be exposed to outside air for more than 30 seconds during the reduction of the sample. It may be done by mixing the seed either in its packaging with a spoon or using a second similar container, which is attached to the opening of the sample container, and by mixing the seed with the overflow from one container to the other. The seed shall then be taken from at least three different sites with a spoon and the seed thus obtained shall be combined together.

(6) In the case of seed bands and seed mats, parts of the belts or mats shall be taken at random.

(7) Where one of the said divisions is used to prepare a sample of pelleted seed, the drop height shall not exceed 250 mm.

6. Sampling of seed potatoes

(1) Sampling for health determination

Sampling of seed potatoes for the purpose of determining disease infestations shall be carried out either directly from seed crops or from warehouses. The samples shall be taken from the warehouses by the samples of control, revision and, where appropriate, from lots of seed for which no sampling from the crop has been carried out.

(a) Procedure for sampling seed potatoes from seed crops:

1. the aggregate sample shall be obtained by merging five incremental samples, which shall be taken from five different positions of the chessboard spread over the plot, each from two adjacent lines, in each of the 11 consecutive stacks,

2. one or two seed size tubers are collected from each rind. When two tubers are taken, one tuber shall be placed in the laboratory sample and the other in the field growing test sample,

3. One sample contains 110 tubers.

(b) Where a sample has not been taken from the crop, tubers of an average size shall be taken at random from stored seed, one sample containing 110 tubers.

(2) Sampling of seed for mechanical analysis

(a) partial samples of seed potatoes after harvesting shall be taken at random by holding both hands, including rough impurities, so that the sample represents the average seed condition;

(b) if the analysis of the sample is not carried out on the spot, it shall be sent for analysis in packages which must be dry, clean and well breathable and marked in accordance with the model set out in Annex 2. The packaging is provided by the supplier. '

3. In Annex 1, point 9.1.3 The test procedure is "10 000 ', replaced by" 2 500'.

4. In Annex 1, the following is inserted after Table 11:

"For an average number of seeds of another plant species (JRD) greater than 138, the tolerated range shall be calculated using the following formula and rounded upwards to the next integer:

For N = 5-9: R = average number of seeds JRD × 5,44

For N = 10- 19: R = average number of seeds JRD × 6,11

For N = 20: R = average number of seeds JRD × 6,69 '.

5. In Annex No 1, the following is inserted after Table 11, Part 2:

"For an average number of seeds of another plant species (JRD) greater than 138, the tolerated range shall be calculated using the following formula and rounded upwards to the next integer:

For N = 5-9: R = average number of seeds JRD × 6,82

For N = 10- 19: R = average number of seeds JRD × 7,65

For N = 20: R = average number of seeds JRD × 8,38 '.

6. Annex 3 (2) (7) reads as follows:

"(7) Record of the result of the crop show

(a) receive a transponder in the form of a list of seed crops containing the necessary data on the propagator, plot, crop and precrops;

(b) is entered in the work record by the overseer and is immediately entered in the record of the crop show in the Institute's information system;

(c) after checking all the completed data, it shall be the basis for the completion of the exhibition of the propagation crop in the information system of the Institute and, by remote access, the result of the exhibition of the propagation crop shall be released for inspection by the supplier who has submitted a request for recognition of the propagation crop in question. "

7. In Annex 5, Table 1, including explanatory notes 1 to 3, reads:

"Table 1

Druh - česky	Druh - latinsky	Maximální hmotnost partie²) (kg)	Minimální hmotnost laboratorního vzorku (g)	Minimální hmotnost zkušebního vzorku pro rozbor čistoty (g)	Minimální hmotnost zkušebního vzorku (g)	Minimální hmotnost vzorku na vegetační zkoušku (g / ks)
1	2	3	4	5	6	7
Anýz vonný	Pimpinella anisum	10 000	70	7	70	50
Artyčok	Cynara cardunculus	10 000	900	90	900	50
Bér italský (čumíza, mohár)	Setaria italica	10 000	90	9	90	150
Bob polní	Vicia faba	30 000	1000	1000	1000	2000
Bob zahradní	Vicia faba	30 000	1000	1000	1000	2000
Bojínek hlíznatý³)	Phleum nodosum	10 000	50	1	10	75
Bojínek luční-³)	Phleum pratense	10 000	50	1	10	75
Brokolice	Brassica oleracea	10 000	100	10	100	20
Celer bulvový Celer řapíkatý	Apium graveolens	10 000	25	1	10	5
Cibule	Allium cepa	10 000	80	8	80	70
Cibule sečka	Allium fistulosum	10 000	50	5	50	70
Cizrna beraní	Cicer arietinum	30 000	1000	1000	1000	1000
Cukrovka	Beta vulgaris	20 000	500	50	500	200
Čekanka hlávková Čekanka pro puky	Cichorium intybus	10 000	50	5	50	25
Čekanka průmyslová	Cichorium intybus	10 000	50	5	50	100
Černý kořen	Scorzonera hispanica	10 000	300	30	300	30
Česnek	Allium sativum	10 000	20	2	20	20
Čičorka pestrá	Securigera varia	10 000	100	10	100	100
Čirok	Sorghum bicolor	30 000	900	90	900	200
Čirok x čirok súdánská tráva	Sorghum bicolor x S. sudanense	30 000	300	30	300	200
Čirok súdánská tráva	Sorghum sudanense	10 000	250	25	250	200
Čočka jedlá	Lens culinaris	30 000	600	60	600	500
Čtyřboč (špenát novozélandský)	Tetragonia tetragonoides	20 000	1000	200	1000	150
Echalion	Allium cepa	10 000	80	8	80	70
Endivie kadeřavá Eskariol	Cichorium endivia	10 000	40	4	40	10
Fazol obecný keříčkový Fazol obecný pnoucí	Phaseolus vulgaris	30 000	1000	700	1000	500
Fazol šarlatový	Phaseolus coccineus	30 000	1000	1000	1000	500
Fenykl	Foeniculum vulgare	10 000	180	18	180	70
Festulolium-³)	X Festulolium	10 000	200	6	60	200
Hořčice bílá	Sinapis alba	10 000	400	20	200	250
Hořčice černá	Brassica nigra	10 000	100	4	40	250
Hořčice sareptská	Brassica juncea	10 000	100	4	40	250
Hrách polní (včetně pelušky)	Pisum sativum	30 000	1000	900	1000	1000
Hrách cukrový Hrách dřeňový Hrách kulatosemenný	Pisum sativum	30 000	1000	900	1000	1000
Chilli	Capsicum annuum	10 000	150	15	150	10
Chřest	Asparagus officinalis	20 000	1000	100	1000	100
Ječmen	Hordeum vulgare	30 000	1000	120	1000	1000
Jestřabina východní	Galega orientalis	10 000	250	20	200	200
Jetel alexandrijský	Trifolium alexandrinum	10 000	400	6	60	300/150¹)
Jetel luční	Trifolium pratense	10 000	300	5	50	300/150¹)
Jetel nachový	Trifolium incarnatum	10 000	500	8	80	300/150¹)
Jetel plazivý	Trifolium repens	10 000	200	2	20	200/100¹)
Jetel prostřední	Trifolium medium	10 000	300	5	50	300/150¹)
Jetel zvrácený (perský)	Trifolium resupinatum	10 000	200	2	20	300/150¹)
Jetel zvrhlý (švédský)	Trifolium hybridum	10 000	200	2	20	300/150¹)
Jílek hybridní³)	Lolium x hybridum	10 000	200	6	60	350/200¹)
Jílek mnohokvětý³)	Lolium multiflorum	10 000	200	6	60	350/200¹)
Jílek vytrvalý³)	Lolium perenne	10 000	200	6	60	350/200¹)
Kadeřávek	Brassica oleracea	10 000	100	10	100	20
Kapusta hlávková	Brassica oleracea	10 000	100	10	100	20
Kapusta krmná	Brassica oleracea	10 000	200	10	100	250
Kapusta růžičková	Brassica oleracea	10 000	100	10	100	20
Karda	Cynara cardunculus	10 000	900	90	900	50
Kedluben	Brassica oleracea	10 000	100	10	100	20
Kerblík	Anthriscus cerefolium	10 000	60	6	60	20
Kmín	Carum carvi	10 000	200	8	80	200
Komonice bílá	Melilotus albus	10 000	50	5	50	300/150¹)
Konopí seté	Cannabis sativa	10 000	600	60	600	500
Kopr vonný	Anethum graveolens	10 000	40	4	40	40
Kopyšník (plod)	Hedysarum coronarium	10 000	1000	30	300	1000
Kopyšník (semeno)	Hedysarum coronarium	10 000	400	12	120	400
Koriandr setý	Coriandrum sativum	10 000	400	40	400	40
Kostřava červená³)	Festuca rubra	10 000	100	3	30	200
Kostřava drsnolistá³)	Festuca trachyphylla	10 000	100	5	30	200
Kostřava luční³)	Festuca pratensis	10 000	100	5	50	200
Kostřava ovčí³)	Festuca ovina	10 000	100	2,5	30	200
Kostřava rákosovitá³)	Festuca arundinacea	10000	100	5	50	200
Kostřava vláskovitá³)	Festuca filiformis	10000	100	2,5	30	200
Kozlíček polniček	Valerianella locusta	10000	70	7	70	25
Kukuřice (mimo cukrové a pukancové)	Zea mays	40 000	1000	900	1000	1000
Kukuřice cukrová Kukuřice pukancová	Zea mays	20 000 (40 000)	1000	900	1000	1000
Květák	Brassica oleracea	10 000	100	10	100	20
Len	Linum usitatissimum	10 000	300	15	150	150
Lesknice kanárská	Phalaris canariensis	10 000	400	20	200	200
Lesknice menší	Phalaris minor	10 000	200	20	200	200
Lesknice rákosovitá	Phalaris arundinacea	10 000	30	3	30	200
Lesknice vodní³)	Phalaris aquatica	10 000	100	4	50	200
Lilek vejcoplodý	Solanum melongena	10 000	150	15	150	10
Lipnice bahenní³)	Poa palustris	10 000	50	0,5	5	150
Lipnice hajní³)	Poa nemoralis	10 000	50	0,5	5	150
Lipnice luční³)	Poa pratensis	10 000	50	1	5	150
Lipnice obecná³)	Poa trivialis	10 000	50	1	5	150
Lipnice roční³)	Poa annua	10 000	50	1	10	150
Lipnice smáčknutá	Poa compressa	10 000	25	0,5	5	150
Lnička setá	Camelina sativa	10 000	40	4	40	100
Lupina bílá	Lupinus albus	30 000	1000	450	1000	1000
Lupina úzkolistá	Lupinus angustifolius	30 000	1000	450	1000	1000
Lupina žlutá	Lupinus luteus	30 000	1000	450	1000	1000
Majoránka zahradni	Origanum majorana	10 000	25	0,5	5	0,5
Mák	Papaver somniferum	10 000	50	1	10	100
Mangold	Beta vulgaris	20 000	500	50	500	300
Medyněk vlnatý	Holcus lanatus	10 000	25	1	10	75
Meloun cukrový	Cucumis melo	10 000	150	70	-	100 ks
Meloun vodni	Citrullus lanatus	20 000	1000	250	1000	100 ks
Metlice trsnatá	Deschampsia cespitosa	10 000	25	1	10	150
Mrkev Mrkev krmná	Daucus carota	10 000	30	3	30	80
Okurka nakládačka Okurka salátová	Cucumis sativus	10 000	150	70	-	400 ks
Oves hřebílkatý	Avena strigosa	30 000	1000	50	1000	1000
Oves nahý	Avena nuda	30 000	1000	120	1000	1000
Oves setý	Avena sativa	30 000	1000	120	1000	1000
Ovsík vyvýšený³)	Arrhenatherum elatius	10 000	200	8	80	75
Paprika	Capsicum annuum	10 000	150	15	150	10
Pastinák setý	Pastinaca sativa	10 000	100	10	100	10
Pažitka	Allium schoenoprasum	10 000	30	3	30	20
Petržel	Petroselinum crispum	10 000	40	4	40	60
Pískavice řecké seno	Trigonella foenum-graecum	10 000	500	45	450	300/150¹)
Pohanka hřebenitá	Cynosurus cristatus	10 000	25	2	20	150
Pohanka obecná	Fagopyrum esculentum	10 000	600	60	600	500
Pór	Allium porrum	10 000	70	7	70	80
Proso seté	Panicum miliaceum	10 000	150	15	150	500
Psárka luční³)	Alopecurus pratensis	10 000	100	3	30	150
Psineček psí³)	Agrostis canina	10 000	50	0,25	5	150
Psineček tenký³)	Agrostis capillaris	10 000	50	0,25	5	150
Psineček veliký )	Agrostis gigantea	10 000	50	0,25	5	150
Psineček výběžkatý³)	Agrostis stolonifera	10 000	50	0,25	5	150
Pšenice setá	Triticum aestivum	30 000	1000	120	1000	1000
Pšenice špalda	Triticum spelta	30 000	1000	270	1000	1000
Pšenice tvrdá	Triticum durum	30 000	1000	120	1000	1000
Pýr hřebenitý	Agropyron cristatum	10 000	40	4	40	200
Pýr prostřední	Efytrigia intermedia	10 000	150	15	150	150
Rajče	Solanum lycopersicum	10 000	20	7	-	5
Reveň	Rheum rhaponticum (Rheum rhabarbarum)	10 000	450	45	450	135
Ředkev olejná	Raphamis sativus var. oleiformis	10 000	300	30	300	250
Ředkvička Ředkev	Raphanus sativus	10 000	300	30	300	50
Řepa krmná	Beta vulgaris	20 000	500	50	500	200
Řepa salátová	Beta vulgaris	20 000	500	50	500	300
Řepice	Brassica rapa	10 000	200	7	70	250
Řepka	Brassica napus	10 000	200	10	100	250
Řeřicha setá	Lepidium sativum	10 000	60	6	60	10
Salát	Lactuca sativa	10 000	30	3	30	15
Sléz přeslenitý	Malva verticillata	10 000	50	5	50	5
Slunečnice	Helianthus annuus	25 000	1000	200	1000	250
Sója	Glycine max	30 000	1000	500	1000	1000
Srha hajní	Dactylis polygama	10 000	100	3	30	200
Srha laločnatá³)	Dactylis glomerata	10 000	100	3	30	200
Svazenka	Phacelia tanacetifolia	10 000	300	5	50	100
Sveřep bezbramlý	Bromus inermis	10 000	90	9	90	75
Sveřep horský	Bromus marginatus	10 000	200	20	200	200
Sveřep samužníkovitý³)	Bromus catharticus	10 000	200	20	200	200
Sveřep sitecký³)	Bromus sitchensis	10 000	200	20	200	200
Světlice barvířská	Carthamus tinctorius	25 000	900	90	900	100
Šalotka	Allium cepa	10 000	80	8	80	70
Špenát	Spinacia oleracea	10 000	250	25	250	150
Štírovník jednoletý	Lotus ornithopodioides	10 000	30	3	30	300/150¹)
Štírovník růžkatý	Lotus corniculatus	10 000	200	3	30	300/150¹)
Tolice dětelová	Medicago lupulina	10 000	300	5	50	300/150¹)
Tomka vonná	Anthoxanthum odoratum	10 000	25	2	20	150
Tritikale	x Triticosecale	30 000	1000	120	1000	1000
Trojštět žlutavý³)	Trisetum jlavescens	10 000	50	0,5	5	50
Troskut prstnatý³)	Cynodon dactylon	10 000	50	1	10	50
Tuřín	Brassica napus var. napobrassica	10 000	200	10	100	10
Tykev fíkolistá	Cucurbita ficifolia	10 000	350	180	350	100 ks
Tykev obecná	Cucurbita pepo	20 000	1000	700	1000	100 ks
Tykev velkoplodá	Cucurbita maxima	20 000	1000	700	1000	100 ks
Úročník bolhoj	Anthyllis vulneraria	10 000	60	6	60	300/150¹)
Vičenec - plod	Onobrychis viciifolia	10 000	600	60	600	300/150¹)
Vičenec- semeno	Onobrychis viciifolia	10 000	400	40	400	300/150¹)
Vikev huňatá	Vicia villosa	30 000	1000	100	1000	500
Vikev panonská	Vicia pannonica	30 000	1000	120	1000	500
Vikev setá	Vicia sativa	30 000	1000	140	1000	500
Vodnice	Brassica rapa	10 000	70	7	70	50
Vojtěška proměnlivá	Medicago x varia	10 000	300	10	50	300/150¹)
Vojtěška setá	Medicago sativa	10 000	300	5	50	300/150¹)
Zelí hlávkové bílé	Brassica oleracea	10 000	100	10	100	20
Zelí hlávkové červené	Brassica oleracea	10 000	100	10	100	20
Zelí čínské	Brassica rapa	10 000	70	7	70	20
Zelí pekingské	Brassica rapa	10 000	70	7	70	50
Žito	Secale cereale	30 000	1000	120	1000	1000

1) Sample weight for the input / output vegetation test.

2) The brackets show the weights according to the ISTA rules if different from the weights according to EU rules.

3) The maximum weight of the lot may be increased to 25 000 kg if the supplier has received a permit from the Institute. '

8. In Annex 5, Tables 3 and 4 read:

"Table 3

Typ stanovení	Laboratorní vzorek nejméně (počet jednotek)	Zkušební vzorek nejméně (počet jednotek)
Zkoušení čistoty (včetně zkoušení pravosti druhu)	2 500	2 500
Stanovení hmotnosti tisíce semen	2 500	podíl čistých pelet
Zkoušení klíčivosti	2 500	400
Početní stanovení semen jiných rostlinných druhů a choroboplodných útvarů	10 000	7 500
Početní stanovení semen jiných rostlinných druhů a choroboplodných útvarů (inkrustované a granulované osivo)	25 000	25 000
Velikostní třídění	5 000	1 000

Table 4

Typ stanovení	Laboratorní vzorek nejméně (počet semen)	Zkušební vzorek nejméně (počet semen)
Zkoušení pravosti druhu	300	100
Zkoušení klíčivosti	2 000	400
Zkoušení čistoty (pokud je vyžadováno)	2 500	2 500
Početní stanovení semen jiných rostlinných druhů a choroboplodných útvarů	10 000	7 500

“.

ČÁST TŘETÍ

Amendment of the Decree on the determination of other varieties of fruit species with an officially recognised description which are considered to be entered in the State Variety Book

Čl. III

In the Annex to Decree No 331 / 2017 Coll., on the determination of other varieties of fruit species with an officially recognised description which are considered to be entered in the State Variety Book, the word "Major 'shall be deleted.

ČÁST ČTVRTÁ

EFFECTIVE

Čl. IV

This decree shall take effect on the 15th day following its publication.

Minister:

Ing. Milek v. r.

ČÁST PRVNÍ Čl. I ČÁST DRUHÁ Čl. II ČÁST TŘETÍ Čl. III ČÁST ČTVRTÁ Čl. IV

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Regulation Information

Citation	Decree No. 3 / 2018 Coll., amending Decree No. 378 / 2010 Coll., establishing the species list of grown plants, as amended by Decree No. 42 / 2014 Coll., and other related Regulations
Regulation Type	-
Author	-
Collection	Code of Laws

Date of Promulgation	09.01.2018
Effective from	24.01.2018
Effective until	-
Status	Valid

The regulation text is for informational purposes only.