Top-shoot cuttings were evaluated as planting material with different planting time for rapid multiplication of potato. Plants produced from top-shoot cuttings planted on 25 th November (T 3 ) produced higher mean tuber yield (32.95 tha ﹣1 ) than December planting. Total yield of potato increased 122.8% from early one source crop plants due to taking two times cutting and it was 89.7 % from late one source crop plants. Seed tuber yield increased 167.89% and 95.33% in early and late one source crop plants, respectively. The highest gross net return of Tk. 984,440 was found from whole tuber planted on 10 th November with benefit cost ratio of 3.42. From top shoot cuttings, the highest net return of Tk. 739,600 was found in T 3 (25 th November planting) with benefit cost ratio of 6.20. The crop grown from early planted top-shoot cuttings also produced higher percentage of A and B grade seed tubers than late planting. The results revealed that top shoot cuttings would be used in potato production for getting maximum economic return.
Potato is the important food crops in the world and it stands 3rd among the major food crops in Bangladesh. In spite of its starchy tubers, potato is usually utilized as vegetables in Bangladesh. In terms of area and production, potato ranks first among the vegetables in Bangladesh and the production is about 8.95 million tons from 0.462 million hectares [
Appropriate and proper time of sowing is one of the basic requirements for obtaining maximum yield and high profit returns of potato [
Top-shoot cuttings were evaluated as planting material with different planting time for rapid multiplication of potato at Bangabandhu Sheikh Mujibur Rahman Agricultural University (BSMRAU) during winter, 2011-2012. The location is situated at about 24˚23' north latitude, 90˚08' east longitude and an altitude of 8.4 m above sea level and adjacent to capital Dhaka city. Potato variety Diamant (BARI Potato-7) was used as test crop. During the growing period maximum and minimum air temperature, relative humidity (%), precipitation and evaporation data were recorded throughout the crop period (
Month | Air temperature (˚C) | Humidity (%) | Rainfall (mm) | Evaporation (mm) | ||
---|---|---|---|---|---|---|
Max. | Min. | Ave. | ||||
November | 27.76 | 23.76 | 25.76 | 85.66 | 0.00 | 55.06 |
December | 24.80 | 16.58 | 20.69 | 90.70 | 5.19 | 208.15 |
January | 22.32 | 11.53 | 16.93 | 89.81 | 0.00 | 1.37 |
February | 27.31 | 13.24 | 20.28 | 87.66 | 0.00 | 3.6 |
March | 32.58 | 20.68 | 26.63 | 83.94 | 0.00 | 4.03 |
The experiment was laid out in randomized complete block design (RCBD) with three replications. The treatments were: T1 = Whole tuber planting at 1st November (1st Control), T2 = Whole tuber planting at 1st November for cutting; T3 = 1st cutting from T2 planted on 25th November; T4 = 2nd cutting from T2 on 5th December; T5 = Whole tuber planting on 10th November (2nd control); T6 = Whole tuber planting on 10th November for cutting; T7 = 1st cutting from T6 on 5th December and T8 = 2nd cutting from T6 on 15th December.
The seed tubers were kept in a well-ventilated room and allowed to sprouting under light at night for obtaining healthy green sprouts prior to planting. In this process, 8 - 10 days were elapsed for sprouting. The sprouted tubers were planted at 1st November (T1 and T2) and 10th November (T5 and T6). T1 and T5 were treated as control for producing normal crop. Treatments T2 and T6 were used as source of top shoot cuttings. First top-shoot cuttings with at least two nodes were taken from T2 at 25 days after planting (DAP) which were used as planting material for T3. Second cuttings were taken from (T2) at 10 days after first cutting which were used as planting material for T4. Cuttings were taken by slant cut with a sharp blade and the cut end immerged into water immediately. Then the shoot cuttings were planted in the main plot after treating them with rooting hormone (Napthalene Acetic Acid-16 ppm). Before planting the shoot cuttings in the experimental plots, the plots were irrigated properly so that the cut portion came to the soil and moisture contact. Similarly the top-shoot cuttings were taken from T6 which were used as planting materials for T7 and T8 at 5th December and 15th December, respectively.
Full doses of cow dung (10 t∙ha−1), triple super phosphate (220 kg∙ha−1), muriate of potatsh (270 kg∙ha−1), gypsum (120 kg∙ha−1), boric acid (6 kg∙ha−1) and half dose of urea (175 kg∙ha−1) were applied at final land preparation. The rest half of urea (175 kg∙ha−1) was top dressed at 30 DAP followed by earthing up and light irrigation. Ridge method was used for whole tuber planting (T1, T2, T5 and T6) treatments.
Healthy top shoot cuttings were planted in well watered flat bed. After establishment of the shoot cuttings, ridge was made by earthing up of sides. Intercultural operations such as weeding and earthing up were done manually. Earthing up was done two times, first earthing up was done at 30 DAP when the plant attained a height of about 15 - 20 cm from the base, second time was done at 20 days after the first earthing up. Before the first earthing up, urea was applied. Irrigation was applied five times. The first one was applied at two weeks after planting, the second one was just after earthing up (30 DAP), the third one was at 45 DAP, the 4th one on 60 DAP, and the last one was at 75 DAP. During land preparation, Furadan 5G was applied 10 kg/ha as basal to control soil borne insects and Malathion (0.2%) sprayed in two installments at 45 and 60 DAP control foliar insects. Dithane-M 45 (0.2%) and Secure (0.1%) sprayed alternately five times at 30, 40, 50, 60, 70 DAP to prevent the late blight disease [
The gross yield of tubers per plot was recorded by taking weight of the harvested tubers from all plants of a unit plot and was converted into yield in tons per hectare by using following formula:
All the tubers from the randomly selected five plants were graded into four groups by number (under size ≤ 28 mm, Grade A = 28 - 40 mm, Grade B = 41 - 55 mm and Over size ≥ 55 mm) and expressed in percentage. By using the following formula percentage of each grade was calculated.
All the tubers from the randomly selected five plants were graded into four groups by weight (under size ≤ 28 mm, Grade-A = 28 - 40 mm, Grade-B = 41 - 55 mm and over size ≥ 55 mm) and expressed in percentage. By using the following formula percentage of each grade was calculated.
Recorded data on tuber yield, grades of tuber by weight and by number were analyzed statistically using the software MSTATC (Developed by the Department of Crop and Soil Sciences, Michigan State University, East Lansing, MI 48824 USA). Significance between treatments were tested by using Duncan Multiple Range Test (DMRT) at p < 0.05 level. Benefit cost ratio (BCR) was calculated according to Khan et al. [
Tuber yield per hectare significantly influenced by planting time (
The plants used for cuttings produced from whole tuber planted at 1st November (T2) showed 17.2 % of yield reduction compared to control (T1) might be due to two times top shoot cuttings that reduced photosynthetic area and resulted in lower yield. Photosynthesis is positively related with the leaf area and foliage coverage [
Treatments | Yield (t∙ha−1) | Cumulative yield (t∙ha−1) | Yield increase (%) with destructive haulm | Yield decrease as compare to respective control (%) | Yield decrease (−)/increase (+) in 2nd planting as compare to 1st planting (%) |
---|---|---|---|---|---|
T1 | 41.84 a | 41.84 | - | - | - |
T2 | 34.63 c | 93.23 | 122.8 | 17.2 | - |
T3 | 32.95 d | - | - | 21.2 | - |
T4 | 25.65 e | - | - | 38.7 | - |
T5 | 42.56 a | 42.56 | - | - | 1.7 |
T6 | 37.52 b | 80.75 | 89.7 | 11.8 | 8.3 |
T7 | 24.34 e | - | - | 42.8 | −26.1 |
T8 | 18.89 f | - | - | 55.6 | −26.4 |
CV (%) | 5.01 | ||||
Level of significance | ** |
Means bearing same letter in a column do not differ significantly at 1% level of probability.
Again, 21.2% and 38.7% yield reduction was observed in top shoot cuttings treatments T3 and T4, respectively. Top-shoot cutting plants needed more time for its establishment and plants got less time to tuber initiation and development resulting lower yield. Similar trend was observed in the treatments T5, T6, T7 and T8. The yield reduction was higher in the treatments T7 and T8 (42.4% and 55.6% respectively) due to late planting of top- shoot cuttings which took more time to establish and simultaneously faced higher temperature which was not suitable for tuber initiation and development [
Seed tuber yield increased 167.89% (30.96 t∙ha−1 to 82.94 t∙ha−1) from early one source crop due to taking two times cuttings, while it was 95.33% (from 37.88 t∙ha−1 to73.99 t∙ha−1 cumulative yield) from late one source crop (
Planting time of top shoot cutting of potato had significant effects on tuber grade by number (
Planting time of top shoot cuttings of potato on tuber grade by weight was significant (
Planting time | Seed yield (t∙ha−1) | Cumulative seed yield (t∙ha−1) | Seed yield increase (%) with destructive haulm | Seed tuber (no/ha) | Number increase (%) with destructive haulm | |
---|---|---|---|---|---|---|
Actual tuber | Cumulative tuber | |||||
T1 | 30.96 | 30.96 | - | 918,519 | 918,519 | - |
T2 | 31.86 | 82.94 | 167.89 | 834,815 | 1,560,741 | 69.91 |
T3 | 28.00 | - | - | 355,556 | - | - |
T4 | 23.08 | - | - | 370,370 | - | - |
T5 | 37.88 | 37.88 | - | 923,704 | 923,704 | - |
T6 | 34.89 | 73.99 | 95.33 | 852,593 | 1,507,408 | 63.19 |
T7 | 21.91 | - | - | 337,778 | - | - |
T8 | 17.19 | - | - | 317,037 | - | - |
tically similar and the lowest percentage (13.60%) of non-seed was found in T7 followed by T4 (14.7%) and T6 (16.8%). Potato produced from stem cutting revealed that delayed planting reduced total tuber number and potato grade. These results are in conformity with the findings of [
Variations in benefit cost ratio (BCR) were observed among the treatments (
Considering seed production from top shoot cuttings, total cost was the minimum in the treatments T3, T4, T7 and T8 and it was Tk. 119,367. The highest gross return of Tk. 739,600 was found in T3 followed by T4 (Tk. 597,560). The lowest net return of Tk. 443,190 was found in T8. The maximum benefit cost ratio (BCR) of 6.20 also recorded from T3 followed by T4. The overall BCR was obtained higher in top shoot cuttings than whole
Treatment | % Grade by number | % Grade by weight | ||||
---|---|---|---|---|---|---|
Grade A (28 - 40 mm) | Grade B (41 - 55 mm) | %Non-seed (<28 mm + >55 mm) | Grade A (28 - 40 mm) | Grade B (41 - 55 mm) | %Non-seed (<28mm + >55mm) | |
T1 | 48.1 | 25.9 | 26.0 | 38.2 | 53.0 | 8.9 |
T2 | 52.8 | 24.0 | 23.2 | 44.3 | 48.5 | 7.1 |
T3 | 45.6 | 32.5 | 22.0 | 25.5 | 60.3 | 14.2 |
T4 | 53.3 | 32.0 | 14.7 | 26.8 | 63.7 | 9.4 |
T5 | 48.7 | 33.6 | 17.7 | 42.5 | 46.5 | 11.0 |
T6 | 46.7 | 36.5 | 16.8 | 27.1 | 65.9 | 7.0 |
T7 | 53.1 | 33.3 | 13.6 | 29.8 | 61.0 | 9.2 |
T8 | 50.9 | 28.9 | 20.2 | 70.2 | 21.6 | 8.2 |
Level of significance | ** | ** | ** | ** | ** | ** |
CV (%) | 8.08 | 7.91 | 8.64 | 11.75 | 10.10 | 9.36 |
Treatment | Total material cost (Tk.) | Total non-material cost (Tk.) | Total variable cost (Tk.) | Gross return (Tk./ha) | Total gross return (Tk./ha) | Net return (Tk.) | BCR | |
---|---|---|---|---|---|---|---|---|
Seed | Non-seed | |||||||
T1 | 218,600 | 69,400 | 288,000 | 774,000 | 84,160 | 858,160 | 570,159 | 2.98 |
T2 | 218,600 | 69,400 | 288,000 | 796,500 | 22,160 | 818,660 | 530,659 | 2.84 |
T3 | 45,034 | 74,333 | 119,367 | 700,000 | 39,600 | 739,600 | 620,233 | 6.20 |
T4 | 45,034 | 74,333 | 119,367 | 577,000 | 20,560 | 597,560 | 478,193 | 5.01 |
T5 | 218,600 | 69,400 | 288,000 | 947,000 | 37,440 | 984,440 | 696,439 | 3.42 |
T6 | 218,600 | 69,400 | 288,000 | 872,250 | 21,040 | 893,290 | 605,289 | 3.10 |
T7 | 45,034 | 74,333 | 119,367 | 547,750 | 19,440 | 567,190 | 447,823 | 4.75 |
T8 | 45,034 | 74,333 | 119,367 | 429,750 | 13,440 | 443,190 | 323,823 | 3.71 |
1 USD = 78.30 Tk.
tubers being no required seed cost. Our study revealed that the BCR for whole tuber planting was the highest at mid-November planting and for the top shoots cutting; BCR was highest at early planting of top shoot cutting. Many authors previously reported similar results on seed tuber multiplication [
Early planted top shoot cutting (25th November planting) yielded maximum than late planting (December). The crop grown from early planted top-shoot cuttings produced higher percentage of A- (28 - 40 mm) and B-grade (41 - 55 mm) seed tubers than late planting. For getting maximum benefit top shoot cuttings would be used in potato production rather than the plants produced from whole tubers.
Appreciation is extended to Director General of Department of Agriculture Extension, Khamarbari, Dhaka for granting fellowship and to the Department of Horticulture of Bangabandhu Sheikh Mujibur Rahman Agricultural University for providing facilities of this study.
Md. Abdullah Al Mamun,Abdullah-Al Mahmud,Md. Shawquat Ali Khan,Md. Altaf Hossain,Mohammad Zakaria, (2015) Planting Time Effects of Top-Shoot Cutting on Yield and Grade for Rapid Seed Potato Multiplication. Open Access Library Journal,02,1-8. doi: 10.4236/oalib.1101904