The 801 is a highly versatile and accurate combination seed counter. Operating functions include: TOTALIZE: Registers a complete count on a pre-weighed or volumetrically measured portion. BATCH COUNT: Accurately counts a predetermined number of seeds in a single batch. REPEAT BATCH: Allows for the continual repetition of a single batch count. Description The Contador 2 is a newly developed instrument which is based on the practical experience with the renowned seed counter.
![]() Technical Specification : The Equipment Eliminates Troublesome And Time Consuming Tasks Of Counting Seeds For Germination And Sowing Tests By Manual Process Through Highly Accurate Vacuum Seed Counter. The Counter Operates By Means Of Suction With Force Of Air Stream Through A Flexible Plastic Tube Attached With A Gun And Removable Brass Plate For Counting Accurate 50 Or 100 Seeds In Just Five Seconds. The Vacuum Seed Counter Having Tow High Powered Motors Of 700 Watts Each Can Operate Separately And Jointly For Getting Low,Medium And High Sucation Through Selector Switch For Packing Up Light And Heavy Seeds Of Different Sizes. The Unit Also Having Thermal Cut Off Device Which Prevents The Motors From Burning By Cutting Of Electricity In Case Of Excessive Heating Up To 88 Deg. C. Brass Plates For Counting 50 Or 100 Seeds Of Different Type At A Time Is Highly Accurate And Simple Process While In Use By Any Laymen.. The Gun Have A Facility Of Trigger To Stop The Suction Velocity And Release The Seeds From The Attachable Brass Plate For Preserving The Samples On Germination Paper.
Sample quantity and quality and viability
When seed samples enter the storage facilities, the seed quantity will first be determined. A sample must contain a minimum amount of seeds, this differs per crop. The upper limit is usually the quantity of seeds that can be stored in the largest pre-fabricated sample bags (volume ±500 cm3).
The purity of the sample is checked visually and if necessary the sample is cleaned. Criteria for purity are: absence of dust particles, broken and/or empty seeds.
Sample viability is determined in germination tests. Random samples of usually about 200 seeds are tested. In the case of some wild species smaller seed samples are tested. The tests are in compliance with the ISTA rules, which describe standard tests per crop. Most of the germination tests are executed by specially equipped institute namely The Dutch General Inspection Service for Agricultural Seeds and Seed Potatoes (NAK-AGRO), and the Netherlands Inspection Service for Horticulture (NAKtuinbouw).
In general the germination percentage should be at least 80% for varieties and landraces and 60% for wild species if samples are to be included in the collections. In case of material that is difficult to regenerate, e.g. because of climatic constraints, acceptable levels of germination percentages may be lower. If the germination percentage does not meet the criteria, the sample needs to be regenerated again.
Seed cleaning
After harvesting, the bagged and labelled samples are preliminary dried in an oasthouse and later in a climate chamber at 15°C and 30% RH. Dried samples are threshed using a small winnowing machine (Clipper). Seeds and debris are separated using differences in seed size, specific gravity and floating speed by passing the sample through a combination of different sieves (round or slit sieves) and air flow devices. Since the material to be processed is often very heterogeneous, manual adjustment of sieves and airflow current is necessary. After each sample is processed, the winnowing machine is cleaned using a high pressured airstream. Peas and beans are threshed by hand, since mechanical threshing would damage the seeds.
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After threshing, the seeds are separated by shape and size using indented cylinders. To maintain sample variation, cleaning procedures should not be too discriminative. During cleaning, operators check visually for damaged seeds.
Some of the horticultural crops are pre-cleaned at a different location. After harvest the seeds are bagged, thereafter the labeled samples are dried in an oasthouse at 25°C and uncontrolled humidity for 4-5 days. All samples are cleaned manually. First of all the bagged samples are crushed by hand to separate the seeds from the remaining parts of the inflorescence. The samples are then cleaned, using sieves in airflow cabinets and/ or an electric blower.
For the fruit vegetables the seed cleaning procedure differs considerably. Tomato fruits are cut in halves and the seeds with fruit juice are transferred to cups and diluted with an equal amount of 2% HCL solution to remove the slime. For cucumber and melon a 4% HCL solution is used, mixed with an equal amount of water. After 1 hour the seeds are washed in a sieve with water, and dried on filter paper at room temperature. Pepper fruits are cut in halves, the seeds are removed from the placenta and washed in water. Good seeds sink, the rest of the seeds are removed. The seeds are dried on filter paper at room temperature. For small peppers squeezing the fruits in water works more efficient. The seeds can then easily be removed. Eggplant fruits are broken in pieces and crushed with a PVC pounder. After crushing the pulp is mixed with water. The seeds settle down and the pulp is poured off. Seeds are washed and dried on filter paper at room temperature. The potato fruits are squeezed by hand under water. Empty seeds and contamination are removed by running tap water. The seeds are dried on filter paper.
After cleaning, the samples are checked visually for purity and damaged seeds. Before samples are transferred to the drying room, they are checked with reference samples (especially the wild species) or reference data for matching seed colour and shape. The labels on the outside of the bags are also checked to see that they correspond with the labels inside the bag. As a final check, the seed quantity is checked before transferring the material to the seed manager for further processing.
Seed drying
The seed samples are dried in the drying room at 15°C and 15% RH, until a seed moisture content of 3-7% is reached. Depending on initial moisture content and the physical and chemical properties of the seed, it takes 2 to 8 weeks before the desired percentage seed moisture content is reached. During drying the seed samples are packed in paper or jute bags. Large samples are divided between several bags to expedite drying.
Seed packaging
The seed samples are packed in laminated aluminium foil bags. The bags consists of 3 layers: the inner layer of 80 µm polyethylene, an intermediate layer of 12 µm aluminum foil and an outer layer of 12 µm polyester. Polyethylene is necessary to seal the bags, the aluminium is non-permeable to moisture and the polyester is used to give the bag its mechanical strength. Four different sizes of bags are used, depending on the crop and the size of the seed samples.
For spiny spinach seeds cardboard layers are used to prevent puncturing of the seedbags.
Five different types of samples for storage are distinguished:
Each accession has at least one sample for duplication, one for regeneration and four samples for germination tests. There is usually one residual sample. Sometimes when the seeds are very large, two residual samples are made. Depending on the expected demand by users, the number of pre-packed user samples varies per crop from four to eight bags. Pre-packing of user samples is considered to be more efficient and avoids repeated exposure of seeds to extreme changes in ambient temperature during storage.
Per type of sample a certain number of seeds is stored, depending on the crop. The number of seeds per type of sample is given in the table below.
* Number of seeds depends on the subcrop type
Before packing, the seed quantities of large seeded crops are subdivided into smaller parts using an INRA Rifle type Divider. To check the correct number of seeds per sample, a Contador seed counter is used. Finally the weight of the residual sample is recorded.
After the samples of different sizes are prepared, they are bagged, and sealed under light vacuum conditions using the Hencovax 1900/2 vacuum-sealing machine. Vacuum sealing provides a check on air-tightness of the laminated foil bags. The strength of the vacuum pump can be adjusted, since it is important not to use too high vacuum conditions as this might cause damage to the packing material and/or to the packaged seeds. Especially sharp and pointed seeds may puncture the packing material if not properly treated. After the samples are sealed, the bags are labeled. The label contains the following information:
The labels are printed on a thermal transfer printer (Easy Coder 7421). To ensure a permanent bond in the -20°C environment; special glue is used to stick the labels to the seed bags.
Seed storage
CGN has both long- and medium-term storage facilities. The total seed bulk after regeneration of an accession is split into two parts. The user bags are packed in a numbered box and stored for short/medium-term storage at 4°C. The bags of the other types (regeneration bags, germination bags and rest bags) are placed in a numbered box and kept under long-term storage at -20°C.
The numbered boxes are grouped by crop and placed on numbered shelves in the storage rooms. The location of storage (box and shelve) is recorded in the CGN information system. A computer terminal is present in the seed storage facility to enable direct updating of storage information in the central collection database.
Monitoring accessions
Quantity
Every month an inventory of the number of distributed seed samples is made, using data from the CGN information system. Accessions with no user samples at all are marked. New user samples have to be prepared using the residual sample. This is transferred from the long-term storage facility at -20°C to the medium-term storage facility at 4°C, one day in advance, to prevent condensation on the seeds. It is then moved to the seed laboratory (±20°C) to make new user samples. These are stored in medium-term storage (4°C) and the residual sample is returned to the long-term facility at -20°C.
Viability
Accessions need to be regularly tested for viability, this is monitored with standard germination tests. The interval for viability checking depends on the expected seed-storage life of the crop. Crops with a short storage-life need to be checked more frequently than crops with a long storage life. The complete lettuce collection is subject to viability checking every 10 years, whereas the cereal collection is checked every 10, 20, 30 years respectively dependent of the initial germination rate. The germination tests are executed by the NAK-AGRO and NAKtuinbouw, according to the ISTA rules. If the germination percentage has dropped 15% compared to the initial percentage recorded when the sample was admitted to the genebank collection, the sample is marked for regeneration in the following year. ![]() Comments are closed.
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December 2022
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