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Effect of Pre-Sowing Seed Treatment With Micronutrients on Growth Parameters of Raya



M. Arshad Ullah , M. Sarfraz , M. Sadiq , S. M. Mehdi and G. Hassan
 
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ABSTRACT

A field study was conducted to note the effect of pre-sowing seed treatment with different micronutrient solutions i.e., water, ZnSO4, MnSO4 and FeSO4 on field emergence of Raya cv. , Peela Raya. The concentration of solution used for seed treatments was 0.5M. Seeds were soaked for 12 hours and after that these soaked seeds were dried under the shade for 12 hours before sowing. A basal fertilizer dose of 30 kg N and 30 kg P2O5 ha-1 was applied at the time of sowing. The results revealed that seedling emergence and early growth, fresh and dry weight of roots and shoots were affected significantly by these seed treatments except FeSO4 .

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  How to cite this article:

M. Arshad Ullah , M. Sarfraz , M. Sadiq , S. M. Mehdi and G. Hassan , 2002. Effect of Pre-Sowing Seed Treatment With Micronutrients on Growth Parameters of Raya. Asian Journal of Plant Sciences, 1: 22-23.

DOI: 10.3923/ajps.2002.22.23

URL: https://scialert.net/abstract/?doi=ajps.2002.22.23

Introduction

In arid and semi-arid zones of the world scarcity of water is a primary growth limiting factor. Among the various techniques used to raise successful Raya crop in arid and semi-arid tropics, pre-sowing seed treatments seems to be a promising technique. It has been claimed that pre-sowing seed treatment of the seed stimulates germination and subsequent seedling growth under the normal as well saline soil conditions (Idris and Aslam, 1975).

An important constraint that has performed influence on the field emergence of Peela Raya (Brassica carianata L.) under arid and semi-arid conditions is less availability of certain micronutrients. In making up of micronutrients deficiency, the application of their compounds to the soil or plant is very necessary but the methods which here being used are un-economical in certain cases or these disturb nutrient balance or sometimes cause pollution.

Beneficial effects of micronutrients seed treatment on different crops have been reported by many scientists (Roberts and Winifred, 1948; Kedrov and Deeva, 1958; Moiseev and Aleksandrova, 1960; Ignaeva, 1969). Furthermore seed soaking with trace elements was found more effective than soil treatment or foliar spraying (Smalik, 1959; Musakhandov, 1984). However studies on seed treatments in Raya are rare in Pakistan. Keeping this in view, the present study was undertaken to determine the effect of pre-sowing seed treatment on the field emergence and further to explore the inherent potential of Raya cultivars by fulfilling its nutritive requirements in an economical ways.

Materials and Methods

To evaluate the response of Raya cultivar Peela Raya to micronutrients seed treatment, a field experiment was conducted in a non saline (ECe 0.69 dsm-1 ) alkaline in reaction (pH 7.95), deficient in total N (0.032 %), low in available P (5.94 mg kg-1), adequate in available K (162 mg kg-1) and have manganese (5.84), Zn (2.74), Boron (0.28) and Iron 4.25 mg kg-1 soil. The experiment was laid out in RCBD with three replications keeping in view a net plot size of 2.40 X 7 m2 Steel and torrie (1980).

The treatments of the experiment were:

T1 = Control (Un-soaked)
T2 = Soaking in water
T3 = Soaking in FeSO4 solution 0.5 M
T4 = Soaking in MnSO4 solution 0.5 M
T5 = Soaking in ZnSO4 solution 0.5 M

Seeds were treated by soaking for 12 hours in solution in the ratio of 1gm seed in 2 ml of solution and were dried for 12 hours under shade, then crop was sown at the rate of 5 kg ha-1.

Field Emergence (%) : Emergence was recorded on the 7th and 10th day after sowing and percentage was calculated by using total number of seeds planted in each plot.

Early Growth of Seedlings: Fifteen days after emergence a sample of 10 seedlings from each plot was taken, roots and shoots were carefully cut with the help of a sharp razor blade and separated, washed in distilled water and placed on tissue paper for a few minutes in order to remove excessive amount of moisture. The roots and shoots were wrapped in tissue paper and observations were recorded.

Length of Roots and Shoots (cm): Ten plants were selected from each plot and their roots and shoots lengths were measured in centimeter units.

Fresh Weight of Roots and Shoots (g): Fresh weight of roots and shoots of the same plants were recorded in gram units.

Dry Weight of Roots and Shoots (g): Roots and shoots of each plot were wrapped in the paper bags separately and placed in an oven at 70°C to a constant weight. After drying their dry weight was recorded.

Results and Discussion

The data pertaining to field emergence and other growth characters are in given Table 1. It is obvious from the recorded data that all the treatments except FeSO4 showed significant differences among themselves. The maximum field emergence 75.5 % was noted in ZnSO4 followed by MnSO4 treatment showing 72.80 %. The lowest field emergence was noted in FeSO4 treatment. It was noted that seed treatments with micronutrients gave beneficial effects on emergence except FeSO4 under the condition of this experiment. The results are in agreement with those of Vlasyuk et al. (1982), Shanthamallaiah et al. (1978), Mohammad et al. (1982) and Nagappa (1983). Contradictory results for water treatment has been reported by Leo et al. (1976). But the result of FeSO4 is different which may be due to high dose of chemical and different crop.

Regarding early growth of seedlings (Table 1) the effect of seed treatments was highly significant with ZnSO4 treatment giving the maximum values for roots and shoots length and their fresh and dry weights. Treatment with ZnSO4, MnSO4 and water gave a significant increase over control.

In case of root fresh weight of seedlings (Table 1) the maximum fresh weight of root 2.15 was noticed in ZnSO4 and was followed by MnSO4 treatment showing fresh weight of root 1.94. The lowest value of fresh weight of root was recorded in control or unsoaked treatment. These findings are supported by Popov (1970), Shaban and Eid (1982).

Regarding the root and shoot dry weight of seedlings (Table 1), the effect of seed treatments was highly significant with ZnSO4 giving the maximum value. Root and shoot dry weights of seedlings with seed treatments were recorded highly significant over control which were supported by the findings of Pakroo and Kashirad (1981), Khan (1981) and Shaban and Eid (1982).


Table 1: Effect of micronutrients seed treatment on emergence and other growth characteristics of Raya cv. Peela Raya
Image for - Effect of Pre-Sowing Seed Treatment With Micronutrients on Growth Parameters of Raya
any two means not sharing a common letter differ significantly at 5 % level of probability

Regarding the root length of seedlings (Table 1) the effect of seed treatments is highly significant with ZnSO4 treatment giving the maximum value 8.35 cm. But the FeSO4 treatment was recorded low than control due to late emergence and similar case was studied in shoot length of seedlings. The results are supported by the findings of Trifu (1974) and Naggapa (1983).

All the seed treatments i.e., soaking in water, MnSO4 and ZnSO4 proved beneficial except FeSO4 treatment. Hence pre-sowing seed treatment of Peela Raya with micronutrients may be adopted to grow more seedlings and reduce soil pollution.

REFERENCES

1:  Idris, M. and M. Aslam, 1975. The effect of soaking and drying seeds before planting on the germination and growth of Triticum vulgare under normal and saline conditions. Can. J. Bot., 53: 1328-1332.
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2:  Kedrov-Zikhman, O.K. and V.P. Deeva, 1958. The effect of trace elements on the yield of sugarbeet and flax on weekly acid sub-pudzolic soils. Udobr Urozk, 11: 36-39.

3:  Khan, N.A., 1981. Effect of different levels of fertilizer on growth, yield, oil contents of sunflower varieties. M.Sc. Thesis, University of Agriculture, Faisalabad, Pakistan.

4:  Leo, P.D.E.G., S.I. Scarascia and H. Carella, 1976. Is it possible to improve seed vigour annali della Foculta di Agraria. Universita di-Bari, 28: 567-573.

5:  Mohammad, S., R.S. Sander and K.V.L. Dutt, 1982. Effect of growth regulators on germinability of sunflower (Helianthus annus L.) seeds. Madras Agric. J., 69: 557-558.

6:  Moiseev, K.A. and M.I. Aleksandrova, 1960. The effect on silage and vegetable plants of pre-sowing treatment of their seeds with micronutrients. Trudy Komi Fil. Ahad. Nauk No. 9, pp: 23-32.

7:  Musakhandov, A.N., 1984. Effect of trace elements and methods of their application on yield of horse beans Dokl. Ahad. S-Kh. Nauk, 3: 26-88.

8:  Nagappa, D., 1983. Studies on pre-sowing seed hardening in sunflower, Effect of growth and productivity. Mysore J. Agric. Sci., 17: 94-95.

9:  Pakroo, N. and A. Kashirad, 1981. The effect of salinity and iron application on growth and mineral uptake of sunflower (Hellianthus annus L.). J. Plant Nutr., 4: 45-46.

10:  Popov, G.N., 1970. Effect of micronutrients on drought resistance, yield and chemical composition of maize plants and on physiological processes determining drought-resistance-Trudy. Bot. Instt. Ahad. Nauk USSR, 4: 208-217.

11:  Roberts, A. and O. Winifred, 1948. Preservation of mineral deficiency by soaking in nutrient solution. J. Agric. Sci., 38: 458-468.

12:  Shaban, S.A. and A. Eid, 1982. Effect of some micronutrients on seed germination and seedling growth in maize and cotton. Res. Bull. Fac. Agric. Ain. Shams Univ., 2047: 14-14.

13:  Shanthamallaiah, N.R., G. Pushipa, N. Venugopal and N.M. Potil, 1978. Effect of pre-sowing of sunflower seeds in water on growth and yield of sunflower. Mysore J. Agric. Sci., 10: 34-37.

14:  Smalik, M., 1959. The effect of trace elements on the yield and quality of flax and potatos in Norther. Slovaki Pol Noskospodarstov, 6: 29-44.

15:  Steel, R.G.D. and J.H. Torrie, 1980. Principles and Procedures of Statistics. McGraw Hill Book Co. Inc., New York, pp: 232-251

16:  Trifu, M., 1974. Investigation of the effect of some trace elements and indole acetic acid (IAA) on nitrogen nutrition in maize. Studia Universitatis Babes-Bolyai Biologia, 19: 84-88.

17:  Vlasyuk, P.A. and P.I. Kaban, 1970. Contents of ascorbic acid in maize plants grown from seed treated with Zn and Mn. Vest. Sel-Khiz. Nauki Mork, 6: 3-6.

18:  Ignaeva, O.S., 1969. Effect of pre-sowing treatment of seeds with micronutrients on some physiological characteristics and yield of cereals grown in Buryat. Physiol. Productivity Plants Zabaikal-e-Ulam-Ude, 15: 84-92.

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