Trade Resources Industry Knowledge A Specialized Transplanter Fitted to Transplant Rice Seedlings Onto Paddy Field

A Specialized Transplanter Fitted to Transplant Rice Seedlings Onto Paddy Field

A rice transplanter is a specialized transplanter fitted to transplant rice seedlings onto paddy field. Although rice is grown in areas other than Asia, rice transplanters are used mainly in East, Southeast, and South Asia. This is because rice can be grown without transplanting, by simply sowing seeds on field, and farmers outside Asia prefer this fuss-free way at the expense of reduced yield. A common rice transplanter comprises: a seedling tray like a shed roof on which mat type rice nursery is set; a seedling tray shifter that shifts the seedling tray like a carriage of typewriters; and plural pickup forks that pick up a seedling from mat type nursery on the seedling tray and put the seedling into the earth, as if the seedling were taken between human fingers. Machine transplanting using rice transplanters requires considerably less time and labor than manual transplanting. It increases the approximate area that a person can plant from 700 to 10,000 square metres per day. However, rice transplanters are considerably expensive for almost all Asian small-hold farmers. Rice transplanters are popular in industrialized countries where labor cost is high, for example in South Korea. Rice transplanters were first developed in Japan in 1960s, whereas the earliest attempt to mechanize rice transplanting dates back to late 19th century. In Japan, development and spread of rice transplanters progressed rapidly during 1970s and 1980s. Mechanical Transplanting of Rice is the process of transplanting specifically raised seedling of rice as a mat (mat type nursery) using a self propelled mechanical rice transplanter at pre-determined and desired spacing. The mechanical rice transplanter is fitted with a tin based tray like a roof top on which mat type nurseries are placed during the operation. One manual labour transplants approximately 500 square meters in one day whereas with self-propelled rice transplanter one can transplant 4 acres in a day. Advantages • Efficient use of resources by saving on labour (20 man-days ha-1), cost saving (Rs 1500 ha-1), water saving up to 10% • Timely transplanting of seedlings of optimal age (20 days) • Ensures uniform spacing and optimum plant density (30 -35 hills/m2 with 2-3 seedlings/hills) • Higher productivity (0.5 to 0.7 t ha-1) compared to traditional methods • Less transplanting shock, early vigour of seedling, better tillering and uniform maturity of crop that facilitate timely harvest and reduce harvest losses • Less incidence of ‘Bakanae’ disease due to less root injury • Promotes double no-till in rice-wheat system and in-turn long-term system sustainability • Improving soil health through eliminating puddling • Reduces stress, drudgery and health risks of farm labourers • Generates employment and alternate sources of income for rural youth through custom services on nursery raising and mechanical transplanting Operation of Self Propelled Mechanical Rice Transplanter The self-propelled mechanical rice transplanter has two detachable parts i.e. front and rear portions. The front portion has diesel engine ranging from 6-14 HP depending on the make, gear box, lever for adjusting hill spacing, PTO shaft, toothed iron wheel for field operation, steering, driver’s sheet and two sheets for helpers while feeding nursery. The rear portion has floating board, nursery platform, transplanting fingers with screws for adjusting plants/hill, depth setting lever, chains for height adjustment of float board and pedal for float-lifting. For movement from one field/location to another, toothed iron wheel should be replaced with motor bike wheel, and two small wheels should also be fitted below the floating board. The floating board of the transplanter serves as a base and also helps in movement of the machine over excess water in the field. It also serves as a platform for placement of nursery during transplanting operation. On the lower side of the floating board, moulded rectangular plates with round and smooth edges are attached (front to back) 23.5 cm apart for corrugation and smooth movement of machine. Corrugation helps in firm establishment of the transplanted seedlings and also in the faster movement of irrigation water. It also serves the purpose of light planking/ smearing which reduces percolation losses. In general, the self propelled mechanical rice transplanters have a provision of transplanting 8 rows in single pass with 2 spacing arrangements i.e. 23.5 cm x 12 cm and 23.5 cm x 14 cm that maintains 35 and 30 hills/ m2, respectively. The plant to plant spacing can be adjusted using a lever. Similarly, number of plants per hill can be varied (2-4 seedlings/ hill) by adjusting the position of fingers through screws vis-à-vis nursery platform. Number of plants per hill can be increased by narrowing the space between fingers and the platform and vice-versa. To and fro movement of nursery platform is guided by the sliding mechanism provided below it. Now. 6 row transplanters are also available having row spacing of 30 cm. In general, in-field fuel efficiency of the self propelled mechanical rice transplanter is 0.5 l/hr.The field efficiency of transplanter is 2.0-2.5 hours per acre. The efficiency under zero till is higher than unpuddled fields and lowest efficiency is under puddle conditions. The labour requirement for transplanting using mechanical transplanter is 1 man-days per acre and 1 transplanter can cover 4 acres a day. Pre-requisites for transplanting rice using mechanical transplanter The field for zero-till or unpuddled mechanical transplanting should preferably be laser levelled for uniform crop establishment.Under no-till conditions, pre-plant application of non-selective systemic herbicide (Glyphosate 41 SL, 1.0 % solution + 0.1 % surfactant) 7–10 days before transplanting is a must to knock down the pre-emerged weeds, if any. Irrigation water should be applied 12 hours before transplanting to soften the soil for ease in transplanting. Under unpuddled transplanting, 1 dry and shallow tillage using harrow/cultivator followed by planking should be done. Prior to transplanting, apply a light irrigation and drain-out the excess water, if any and allow the soil to settle for 12–24 hours. Again, apply a very light irrigation to maintain a uniform depth of 1 cm standing water before transplanting. Transplanting can be done even without any standing water but immediately after transplanting irrigation need to be applied which sometimes disturbs the seedlings. Steps/process of rice Transplanting Using Mechanical Transplanter After bringing the ready-to-operate self propelled mechanical transplanter in the field, feed the mat type nursery cakes on the slanting nursery platform using one cake per tray. Leave space equal to one machine pass on all four sides of the field before starting transplanting so that while turning of transplanter in the field no seedling damage. Run the machine straightway in the field, take U-turn at end of the field and each return pass should be along the last row of the previous pass. Forks of transplanter pick the seedlings from mat type nursery on the seeding platform and put the seedlings into the soil just like a labour takes seedlings in fingers. The density which is assessed by the amount seeds in the soil layer should be uniform in the whole block that is placed on the tray of transplanter. More the number of seeds per unit of half inch soil layer, more will be its density. Keep on feeding nursery cakes as per need during the transplanting operation. The vacant space left on sides of the field will ease transplanting at corners and enable to take the machine out of the field once transplanting is completed . Keep a close watch over the transplanted area and if there are some gaps due to floating of nursery, fill the gaps, if any, manually. For proper establishment of seedlings, depending on the soil conditions, light irrigations should be ensured daily or on alternate days (depending on soil type) for initial five days. After seedling establishment, the other management practices for weed, nutrients and pest will remain same as recommended for conventional puddled transplanted rice. However, water management will be different under no-till/unpuddled transplanting wherein continuous flooding is not required and wanter can be applied on alternate wetting and drying (AWD) basis. Dos and Don’ts Good seeds result in lower seed rate, more uniform germination, vigorous seedlings, less replanting, fewer weeds, and 5-20% higher yields. Polythene sheet should be handled carefully so that it can be reused for 2-3 seasons. At each end, especially along the length of nursery beds, the problem of overflow of water that carries seeds along must be avoided. This can be achieved by watering the nursery bed with the help of sprinkling of water for 3–4 days. This will help ensuring uniform display of nursery beds and therefore more accurate transfer/transplant of nursery in the field. Some time Zinc (Zn) deficiency appears. Apply 0.5% zinc sulphate+ 1.5 % urea (100 litre water 1.5 kg urea and 0.5 kg zinc sulphate (21%). Apply this if yellowing appears. Generally it appears 13–15 days after sowing (DAS) For soil mixture, press mud can be used if Farm Yard Manure (FYM) is not available. Do not puddle the soil. Keep 1 cm water at the time of transplanting. Irrigate the field 24 hr before transplanting. Bed and furrow system that facilitates in higher irrigation efficiency are formed only in the unpuddled or zero tillage fields. Avoid use of transplanters in low land ecologies where water remains stagnant. Field should not be flooded with water for a week. Maintain only 1 cm water or saturated condition while transplanting Recommendations of herbicides will be same as for manually transplanted crop. The soil needs to be leveled and have sufficient bearing strength to carry the machine and support the planted seedlings. Fields needs to be drained one or two days in advance compared to those for puddled manual transplanting Settling time after preparing the field and water level in the field are the key factors for the success of the mechanical rice transplanting, though it would not be an issue in mechanical transplanting on zero-till conditions Our experiences through recent studies reveal that the machine transplanting works better in no-till/unpuddled conditions compared to puddled conditions. This suggests that it requires distinct soil characteristics that prevent the sedimentation of soil. Under puddled conditions, soil can not make a strong grip on the seedlings. Even excess water (more than 1 cm) coming from top at the time of transplanting will loosen the soil grip on the seedlings. That is why it performs very well under no-till conditions but not under puddled conditions. In a way unpuddled or zero till reduces the risk of empty spaces which is common in puddle fields due to less anchoring of seedlings. Source: en.wikipedia.org

Source: http://en.wikipedia.org/wiki/Rice_transplanter
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