Omar, A., Ash- Shormillesy, S. (2006). EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX. Journal of Productivity and Development, 11(2), 337-350. doi: 10.21608/jpd.2006.45322
Abd El Rahman Omar; Salwa Ash- Shormillesy. "EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX". Journal of Productivity and Development, 11, 2, 2006, 337-350. doi: 10.21608/jpd.2006.45322
Omar, A., Ash- Shormillesy, S. (2006). 'EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX', Journal of Productivity and Development, 11(2), pp. 337-350. doi: 10.21608/jpd.2006.45322
Omar, A., Ash- Shormillesy, S. EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX. Journal of Productivity and Development, 2006; 11(2): 337-350. doi: 10.21608/jpd.2006.45322
EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX
Agronomy Department, Faculty of Agriculture, Zagazig University, Zagazig, Egypt.
Abstract
This field study was performed at the Agricultural Research Farm (Ghazala location), Faculty of Agriculture, Zagazig University., Egypt during 2002/2003 and 2003/2004 seasons to evaluate the effect of seeding rate (expressed herein as seed number, being 800, 1200 and 1600 seeds/m2) and N fertilization levels (20, 40 and 60 kgN/fad) on the yield and some certain characters of the two flax genotypes (local cultivar Giza 7 and Imported genotype Elise). In each trial, split-split plot design of three replicates was employed, with 2 genotypes as main plots, the three seeding rates as sub-plots and the three N levels as sub-sub plots. The experimental unit was 6 m2 with dimensions of 2x3 m. The results showed significant cultivar behaviour, since Giza 7 cultivar was markedly distinguished on its similar Elise one in each of : stem diameter, number of basal and apical branches / plant, straw yield/fad, capsule and seed numbers/plant, seed index, seed yield/fad, seed oil percentage and oil yield/fad. On the other hand, Elise genotype was significantly superior as for : plant height, technical stem length, fibre% and fibre yield/fad. Such trend was greatly valid in both seasons and over them. The three numbers of seeds/m2 gave considerable response in all flax traits studied, since planting 800 seeds/m2 gave greater mean values respecting : stem diameter, number of basal and apical branches/plant, capsule and seed numbers / plant, seed index and seed oil content. Moreover, planting 1600 seeds / m2 possessed greater excess in each of : plant height, technical stem length, fibre% and at last the final yields/fad of straw, fibre, seed and oil when compared with both 800 and 1200 seeding rates. This phenomenon was completely true in both trials and across them as well. Nitrogen fertilization levels exerted noticeable variations in all tested flax traits, since the 20 kg N dose was most effective in raising both fibre% and seed oil content. Likewise, the 60 kg N level attained the greatest mean records regarding plant height, technical stem length, stem diameter, number of basal and apical branches/plant, straw and fibre yields/fad, capsule and seed numbers / plant, seed index and both seed and oil yields/unit area. Such N levels trend was fairly manifested in both seasons and their pooled data as well. Planting 1600 seeds/m2 interacted meaningly with 60 kg N/fad to produce pronounced increments as for : plant height, fibre% and fibre yield/fad (respecting Elise genotype), number of basal branches/plant as well as straw, seed and oil yields/fad (in case of Giza 7 cultivar). In other score, the final yields/fad from straw, fibre, seed and oil were markedly maximized by considering the 1600 seeding rate along with 60 kg N level/fad under the circumstances of this investigation.
EFFECT OF SEEDING RATE AND NITROGEN FERTILIZATION ON THE YIELD OF FLAX
A.E.A. Omar and Salwa, M.A.I. Ash- Shormillesy
Agronomy Department, Faculty of Agriculture, Zagazig University, Zagazig, Egypt.
ABSTRACT
This field study was performed at the Agricultural Research Farm (Ghazala location), Faculty of Agriculture, Zagazig University., Egypt during 2002/2003 and 2003/2004 seasons to evaluate the effect of seeding rate (expressed herein as seed number, being 800, 1200 and 1600 seeds/m2) and N fertilization levels (20, 40 and 60 kgN/fad) on the yield and some certain characters of the two flax genotypes (local cultivar Giza 7 and Imported genotype Elise). In each trial, split-split plot design of three replicates was employed, with 2 genotypes as main plots, the three seeding rates as sub-plots and the three N levels as sub-sub plots. The experimental unit was 6 m2 with dimensions of 2x3 m.
The results showed significant cultivar behaviour, since Giza 7 cultivar was markedly distinguished on its similar Elise one in each of : stem diameter, number of basal and apical branches / plant, straw yield/fad, capsule and seed numbers/plant, seed index, seed yield/fad, seed oil percentage and oil yield/fad. On the other hand, Elise genotype was significantly superior as for : plant height, technical stem length, fibre% and fibre yield/fad. Such trend was greatly valid in both seasons and over them.
The three numbers of seeds/m2 gave considerable response in all flax traits studied, since planting 800 seeds/m2 gave greater mean values respecting : stem diameter, number of basal and apical branches/plant, capsule and seed numbers / plant, seed index and seed oil content. Moreover, planting 1600 seeds / m2 possessed greater excess in each of : plant height, technical stem length, fibre% and at last the final yields/fad of straw, fibre, seed and oil when compared with both 800 and 1200 seeding rates. This phenomenon was completely true in both trials and across them as well.
Nitrogen fertilization levels exerted noticeable variations in all tested flax traits, since the 20 kg N dose was most effective in raising both fibre% and seed oil content. Likewise, the 60 kg N level attained the greatest mean records regarding plant height, technical stem length, stem diameter, number of basal and apical branches/plant, straw and fibre yields/fad, capsule and seed numbers / plant, seed index and both seed and oil yields/unit area. Such N levels trend was fairly manifested in both seasons and their pooled data as well.
Planting 1600 seeds/m2 interacted meaningly with 60 kg N/fad to produce pronounced increments as for : plant height, fibre% and fibre yield/fad (respecting Elise genotype), number of basal branches/plant as well as straw, seed and oil yields/fad (in case of Giza 7 cultivar). In other score, the final yields/fad from straw, fibre, seed and oil were markedly maximized by considering the 1600 seeding rate along with 60 kg N level/fad under the circumstances of this investigation.
Key words : Seeding rate, nitrogen fertilization, flax.
INTRODUCTION
Flax (Linum usitatissimum L.) is one of the most important fibre and oil crops. In Egypt, such crop orders second after cotton as a fiber crop. Both fibre and oil production of flax are insufficient to face the highly local consumption of the ever growing population. So, the major concern of agronomists and government is to attain the maximum flax yield per unit land area by applying the most suitable cultural practices, such as the proper plant stand density and suitable N levels which can boost flax productivity, especially for the new released and high yielding genotypes. Many workers evaluated certain flax genotypes behaviour as for different agronomic traits. Ash-Shormillesy (2001) made a comparison among three flax genotypes, being Giza 7, Belinka and Elise and reported that plant height, technical stem length and straw, fibre as well as seed yields/fad were in favour of the Elise genotype. While, Giza 7 cv was significantly distinguished regarding number of basal or apical branches/plant, straw yield/plant or/fad, fruiting zone length, number of capsules and seeds/plan, seed number/capsule, seed yield/plant, seed index and both seed as well as oil yields/fad. At the same-time Belinka genotype had intermediate mean values regarding the above- mentioned characters. Similar cultivar variations respecting most agronomic traits were documented by other investigators, including : El-Sweify et al. (1996), Kineber et al. (1997), El-Sabbagh et al. (1998), El-Gazzar and Abo-Zaied (2001), El-Azzouni et al. (2003) and at last Kineber (2003).
It had long been established that one of the major factors limiting flax yield and its related characters is the suitable plant density / unit area. Sincewhile; Esmail and Morsy (1994) tried the effect of 750, 1000, 1250, 1500, 1750 and 2000 seeds/m2 on some certain criteria of Giza 6 flax cultivar and concluded that planting 750 seeds/m2 reflected significant increments respecting : number of fruiting branches and capsules/plant, the final yields/plant from seed; straw and fibre as well as seed oil content. Meanwhile, the highest seeding rate of 2000 seeds/m2 detected its visible effect as for : plant height, technical stem length, fruiting zone length and both fibre and seed yields/fad. The other seeding rates found between 750 and 2000 seeds/m2 gave intermediate averages respecting the previous characters. Other works documented similar findings on most flax plant characters due to different seeding rates/fad or seed number/m2, such as : Ash-Shormillesy (2001), El-Gazzar and Abou-Zaied (2001), El-Gazzar (2005) and at last El-Deeb et al. (2006).
Several investigators have examined the positive response of flax plants to different N levels, of them : Zedan et al. (1997), working on Giza 7 flax cultivar, showed that the 70 kg N level/fad detected significant increases as regard : plant height, technical stem length, straw yield either/plant or/fad, fibre yield/fad, upper branching zone length, capsule number/plant, seed number/capsule and/plant and at last seed yield/plant or /fad when compared with the other N levels tested, being 50 and 60 kg N/fad. Mean-time, seed index was insignificantly affected by the different N levels tried. Other researchers recorded similar N level differences as for most agronomic flax traits, such as : Ghanem (1990), Kineber et al. (1998), El-Gazar and Abou-Zaied (2001), El-Gazzar and Kineber (2002), Moustafa et al. (2003) and at last El-Gazzar and El-Kady (2005).
Accordingly, this study was done to explore the effect of seeding rate (assembled herein as seed number /m2) and N fertilization levels on certain important characters of both Giza 7 and Elise genotypes.
MATERIALS AND METHDOS
Two field trials were executed during 2002/2003 and 2003/2004 seasons at the Agricultural Research Farm. (Ghazala location), Faculty of Agriculture, Zagazig University, Egypt to investigate the effect of seeding rates and N fertilization levels on straw, fibre, seed and oil yields beside their related characters of both Giza 7 and Elise flax cultivars. The soil of the experiments was clay in texture with pH value of 7.8, 1.35 organic matter and having 20, 17 and 220 ppm available N, P and K, successively (averages of both seasons for the upper 30 cm of soil).
The studied factors :
The experimental factors examined were as below :
I- Cultivars; V : Two flax cultivars evaluated were :
1- Giza 7, local and commercial cultivar (dual purpose).
2- Elise genotype, introduced from Holland in 1996, considered as fibre type.
II. Seeding rates, S : Three seeding rates expressed as seed number/m2 which were :
1- 800 2- 1200 3- 1600
Each seeding rate used was computed as kg seeds/fad on the basic weight of 1000-seed weight for each cultivar according to the recommended rate described by El-Gazzar (1990) on similar flax cultivars (Table 1).
III- Nitrogen fertilization, N : Three N levels tried in this study were as following :
1- 20 kg N/fad. 2- 40 kg N/fad. 3- 60 kg N/fad.
Design of the field trials :
The experimental design used was split-split plot with three replicates. The main plots were occupied by the two flax cultivars, and the three seeding rates were randomly allocated in the sub-plots. Whereas, the sub-sub plots were devoted to the three N levels. The size of each experimental unit was 6 m2 in both trials, having ten rows (drills) of 3 m in length and 20 cm in width.
Table 1. Seeding rate (kg seeds/fad) assembled as seed number/m2 based on 1000-seed weight (8.5 or 6.3 gm of both Giza 7 and Elise genotypes).
Seed number /m2
Seeding rate as kg seeds/fad.
Giza 7 cultivar
Elise genotype
800
28.56
21.17
1200
42.84
31.75
1600
57.12
42.34
Cultural practices :
The preceding crop was maize in both seasons. After seed-bed preparation, all experimental plots were fertilized with 15.5 kg P2O5 and 25.0 kg K2O /fad in the form of calcium super-phosphate (15.5% P2O5) and potassium sulphate (48-52% K2O), respectively. The seeds of both Giza 7 and Elise cultivars were mixed well with the recommended fungicide to control both seed and seedling diseases. Seeding rates used (expressed as seed number/m2) differed between the two tested genotypes due to varying the seed index of each cultivar as shown in Table 1. The seeds of both genotypes were sown by using Afir method in drills of 20 cm apart on November 28 and 20 in first and second seasons, orderly. Nitrogen fertilizer levels of 20, 40 and 60 kg N/fad as per treatment were added in form of urea fertilizer (46.5% N) in two equal portions before the first and second irrigations, successively. All other practices were manually adopted on proper time and usually applied as recommended in flax production. At last, harvesting was done on May 21st and 30th in the two following seasons, respectively.
The studied characters :
At harvest, ten guarded plants from the third drill in each experimental unit of the 3 replicates were taken to record the following traits :
3- Stem diameter (mm). 4- Number of basal branches/plant.
5- Number of apical branches/plant.
Then, the plants located in one m2 of each sub-sub plot were uprooted to estimate :
6- Straw yield/fad (ton).
Fibre yield /fad.
7- Fibre percentage = ــــــــــــــــــــــــــــــــــــــــــــــــــــــــ x 100
The retted straw yield/fad.
8- Fibre yield/fad (ton).
To determine fibre yield/fad, the plants were weighed (after seed separation) and pooled in water of cement basins to be naturally retted. Then, the plants were left to be dried naturally and the flax fibres were mechanically separated to record fibre yield as kg on plot area basis, then converted to ton/fad.
9- Capsule number/plant. 10- Seed number /plant.
11- Seed index (1000-seed weight), gm.
All 9, 10 and 11 traits were recorded from the same ten plants that used in the determination of 1 – 5 characters.
12- Seed yield/fad (ton). Recorded on plot area basis (from 1 m2).
13- Seed oil content (percentage). Estimated by following the method described by A.O.A.C. (1980).
14-Oil yield/fad (ton). It was calculated by multiplying the seed yield/fad (ton) by its seed oil content and dividing by 100.
Statistical analysis :
The collected data of both seasons were statistically analyzed by using the split-split plot design procedure as described by Das and Giri (1986). Withal, the combined analysis of variance was also computed for all traits recorded herein, after establishing by Barlett's homogeneity test, where the error variance of the individual season was homogeneous. The significant differences among treatment means were judged with the help of Duncan's multiple range test (Duncan, 1955). In interaction Tables recorded on pooled data basis, capital and small letters were used to compare both row and column means, successively. *, ** and N.S. are symbols found in all listed Tables to verify the significant differences among treatment means at 5 and 1% levels of probability and insignificant differences, orderly.
RESULTS AND DISCUSSION
I- Cultivar behaviour :
Significant cultivar differences are shown in all the studied characters of flax in both seasons and over them, since the local cultivar Giza 7 gave greater mean averages than the introduced Elise one as for : stem diameter, number of basal and apical branches/plant, straw yield/fad, capsule and seed numbers/plant, seed index, seed yield/fad, seed oil content and the final oil yield/fad. On the other hand, the Elise genotype was superior to Giza 7 one in each of : plant height, technical stem length, fibre percentage and fibre yield per unit land area. Such trend was, also seen in both trials and in their pooled data as well (Tables 2 to 6, orderly). The cultivar differences in the recorded traits may be ascribed to the genetical make up and the response of each genotype to the prevailing environmental conditions found in the surrounding media. Similar flax cultivar differences in most agronomic characters were cited by other investigators, of them : El-Swiefy et al. (1996), Kineber et al. (1997), El-Sabbagh et al. (1998), El-Gazzar and Abou-Zaied (2001), Ash-Shormillesy (2001), El-Azzouni et al. (2003) and Kineber (2003).
II- Seeding rates effect :
The three seeding rates as number of seeds/m2 varied considerably in their mean values in all the tested flax traits in both seasons and across them, where the light density of 800 seeds/m2 detected greater mean averages regarding : stem diameter, number of basal and apical branches/plant, capsule as well as seed numbers/plant, 1000-seed weight and at last seed oil content. The increase in the afore-named characters due to the 800 seeds/m2 might be attributed to the wide open canopy structure that allowed better light and air penetration and, therefore increased the metabolism in flax plant tissues. Furthermore, the dense density of 1600 seeds/m2 reflected the greatest mean records as for : plant height, technical stem length, straw yield/fad, fibre percentage and the final yields/fad from fibre, seed and oil. In this regard, the crowded plants established from 1600 seeds/m2 could improve the canopy architecture efficiency, leading to marked increases in final flax yields per unit land area as shown previously. At the same-time, the second plant stand of 1200 seeds/m2 gave medium mean averages in all tested flax traits in both trials and over them as demonstrated in Tables 2 – 6, successively. The effect of seeding rates or seed numbers on most agronomic traits of flax was documented by several workers, among them : Esmail and Morsy (1994), El-Gazzar and Abou-Zaied (2001), El-Gazzar (2005) and El-Deeb et al. (2006).
Table 2 : Plant height (cm), technical stem length (cm) and stem diameter (mm) of flax due to various treatments during 2002/2003 and 2003/2004 seasons.
Treatments
Plant height
(cm)
Technical stem length (cm)
Stem diameter
(mm)
First season
Second season
Comb.
First season
Second season
Comb.
First season
Second season
Comb.
Cultivars, V :
Giza 7
Elise
F. test
85.56b
94.96a
**
93.48b
95.60a
*
89.52b
95.28a
**
70.45b
78.57a
**
77.65b
82.53a
**
74.05b
80.55a
**
2.10a
1.96b
*
2.14a
2.00b
*
2.12a
1.98b
*
Seed number/m2, S:
800
1200
1600
F. test
82.42c
90.25b
98.11a
**
92.14c
94.75b
96.73a
**
87.28c
92.50b
97.42a
**
71.84c
75.53b
76.16a
*
77.74c
80.03b
82.50a
**
74.79c
77.78b
79.33a
**
2.26a
1.95b
1.88c
**
2.28a
2.01b
1.92c
**
2.27a
1.98b
1.90c
*
N levels (kgN/fad), N :
20
40
60
F. test
86.06c
91.34b
93.38a
**
91.78c
94.10b
97.74a
**
88.92c
92.72b
95.56a
**
71.59c
74.79b
77.15a
**
76.85c
80.99b
82.43a
**
74.22c
77.89b
79.79a
**
1.88c
2.04b
2.17a
**
1.90c
2.08b
2.23a
**
1.89c
2.06b
2.20a
**
Interactions :
V × S
V × N
S × N
**
*
N.S
N.S
N.S
N.S
**
*
N.S
**
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
*
N.S
N.S
N.S
N.S
N.S
N.S
Table 3 : Number of basal and apical branches/plant as well as straw yield/fad (ton) of flax due to various treatments during 2002/2003 and 2003/2004 seasons.
Treatments
Number of basal branches/plant
Number of apical branches/plant
Straw yield/fad (ton)
First season
Second season
Comb.
First season
Second season
Comb.
First season
Second season
Comb.
Cultivars, V :
Giza 7
Elise
F. test
1.32a
1.02b
**
1.60a
1.14b
*
1.46a
1.08b
**
3.75a
3.31b
*
4.67a
4.11b
*
4.21a
3.71b
*
3.56a
2.68b
*
3.84a
2.72b
*
3.70a
2.70b
*
Seed number/m2, S:
800
1200
1600
F. test
1.33a
1.18b
1.00c
**
1.63a
1.40b
1.08c
**
1.48a
1.29b
1.04c
**
4.06a
3.45b
3.08c
**
4.62a
4.53b
4.02c
*
4.34a
3.99b
3.55c
**
2.90c
2.46b
4.00a
**
2.48c
3.40b
3.96a
**
2.69c
2.93b
3.98a
**
N levels (kgN/fad), N :
20
40
60
F. test
0.85c
1.17b
1.49a
**
1.11c
1.33b
1.67a
**
0.98c
1.25b
1.58a
**
3.17c
3.56b
3.86a
**
3.87c
4.44b
4.86a
**
3.52c
4.00b
4.36a
**
2.51c
3.02b
3.83a
**
2.63c
3.18b
4.03a
**
2.57c
3.10b
3.93a
**
Interactions :
V × S
V × N
S × N
N.S
N.S
N.S
N.S
**
N.S
N.S
*
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
*
*
*
*
*
*
**
**
Table 4 : Fibre percentage, fibre yield/fad (ton) and number of capsules/plant of flax as affected by the different treatments during 2002/2003 and 2003/2004 seasons.
Treatments
Fibre%
Fibre yield/fad
(ton)
Capsule number/plant
First season
Second season
Comb.
First season
Second season
Comb.
First season
Second season
Comb.
Cultivars, V :
Giza 7
Elise
F. test
19.15b
27.37a
**
21.37b
27.79a
**
20.26b
27.58a
**
0.448b
0.548a
*
0.480b
0.552a
*
0.464b
0.550a
*
14.62a
12.80b
*
19.24a
15.46b
*
16.93a
14.13b
*
Seed number/m2, S:
800
1200
1600
F. test
21.14c
22.76b
25.88a
**
22.80c
24.26b
26.68a
**
21.97c
23.51b
26.28a
**
0.486c
0.495b
0.513a
**
0.494c
0.519b
0.535a
**
0.490c
0.507b
0.524a
**
16.73a
12.94b
11.46c
**
18.99a
17.64b
15.42c
**
17.86a
15.29b
13.44c
**
N levels (kgN/fad), N :
20
40
60
F. test
28.21a
22.99b
18.58c
**
28.57a
24.67b
20.50c
**
28.39a
23.83b
19.54c
**
0.476c
0.497b
0.521a
**
0.484c
0.517b
0.547a
**
0.480c
0.507b
0.534a
**
11.84c
13.66b
15.63a
**
15.24c
17.64b
19.17a
**
13.54c
15.65b
17.40a
**
Interactions :
V × S
V × N
S × N
N.S
N.S
N.S
N.S
N.S
N.S
*
N.S N.S
**
*
*
*
*
N.S
*
*
*
**
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
Table 5 : Seed number/plant, seed index (gm) and seed yield/fad (ton) of flax in response to the different treatments in 2002/2003 and 2003/2004 seasons.
Treatments
Seed number/ plant
1000-seed weight (seed index), gm
Seed yield/fad (ton)
First
season
Second season
Comb.
First
season
Second season
Comb.
First
season
Second season
Comb.
Cultivars, V :
Giza 7
Elise
F. test
102.34a
76.82b
**
130.00a
92.00b
**
116.17a
84.41b
**
8.58a
6.44b
**
8.62a
7.08b
*
8.60a
6.76b
*
0.906a
0.802b
*
0.952a
0.816b
*
0.929a
0.809b
*
Seed number/m2, S:
800
1200
1600
F. test
114.10a
81.94b
72.70c
**
126.00a
114.50b
92.50c
**
120.05a
98.22b
82.60c
**
8.54a
7.50b
6.49c
**
9.00a
7.92b
6.63c
**
8.77a
7.71b
6.56c
**
0.800c
0.858b
0.904a
**
0.814c
0.864b
0.974a
**
0.807c
0.861b
0.939a
**
N levels (kgN/fad), N :
20
40
60
F. test
73.74c
85.00b
110.00a
**
90.00c
114.00b
129.00a
**
81.87c
99.50b
119.50a
**
6.20c
7.71b
8.62a
**
7.04c
7.93b
8.58a
**
6.62c
7.82b
8.60a
**
0.670c
0.868b
1.024a
**
0.704c
0.916b
1.032a
**
0.687c
0.892b
1.028a
**
Interactions :
V × S
V × N
S × N
N.S
N.S
N.S
N.S
*
N.S
N.S
N.S
N.S
**
N.S
*
*
N.S
*
*
N.S
*
**
*
*
*
**
*
*
*
**
Table 6 : Seed oil content (%) and oil yield/fad (ton) of flax in response to the different treatments during 2002/2003 and 2003/2004 seasons.
Treatments
Seed oil content
(%)
Oil yield/fad
(ton)
First
season
Second season
Comb.
First
season
Second season
Comb.
Cultivars, V :
Giza 7
Elise
F. test
34.96a
33.74b
*
35.26a
33.92b
**
35.11a
33.83b
**
0.316a
0.270b
**
0.336a
0.278b
**
0.326a
0.274b
**
Seed number/m2, S:
800
1200
1600
F. test
35.76a
34.35b
32.94c
**
35.62a
34.59b
33.56c
**
35.69a
34.47b
33.25c
**
0.286c
0.293b
0.300a
*
0.292b
0.301b
0.328a
*
0.289c
0.297b
0.314a
**
N levels (kgN/fad), N :
20
40
60
F. test
35.96a
34.33b
32.76c
**
35.58a
34.65b
33.54c
**
35.77a
34.49b
33.15c
**
0.242c
0.301b
0.336a
**
0.254c
0.319b
0.348a
**
0.248c
0.310b
0.342a
**
Interactions :
V × S
V × N
S × N
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
N.S
*
N.S
*
*
*
N.S
*
*
**
III- Nitrogen fertilization effect :
Nitrogen fertilization levels recorded herein excerted significant changes as for all flax characters listed in Tables 2 to 6, since the highest N level of 60 kg N/fad reflected its considerable excess in each of : plant height, technical stem length, stem diameter, number of basal and apical branches/plant, both straw and fibre yields/fad, capsule and seed numbers/plant, seed index and at last both seed and oil yields per unit area .Upon the pooled data ,the fibre, seed and oil yield increases, due to 60 kg N level/fad reached 11.25 and 5.32; 49.63 and 15.24 and at last 37.90 and 10.32% over 20 and 40 kg N levels/fad, successively. The reverse hold true respecting both fibre and seed oil percentages, where the highest mean values were in favour of the lowest N level of 20 kg N/fad. Mean-time, the medium N rate of 40 kg/fad possessed mean averages of the previous characters came in between. The positive effects of the three N levels tested in this study were shown in both trials and when their combined data were statistically analyzed. The stimulative effect of N levels added to flax plants of both Giza 7 and Elise genotypes especially in poorly fertility soil like used herein, may be attributed to the stimulating of photosynthesis process, and therefore they encouraged the amounts of metabolites to be accumulated in plant tissues that are responsible for raising the capacity of the fertilized plants to produce more fibre units as well as fruited organs and the consequent fibre and oil yields per unit land area. The vital function of N nutrition in increasing the final fibre and oil yields/fad as well as the related criteria were documented by other workers, such as : Ghanem (1990), Zedan et al. (1997), Kineber et al. (1998), El-Gazzar and Abou-Zaied (2001), El-Gazzar and Kineber (2002) and Moustafa et al. (2003).
IV- Interaction effect :
Data recorded in Table 7 indicate that the interactions between both Giza 7 and Elise genotypes and the three seeding rates of 800, 1200 and 1600 seeds/m2 were significant as for plant height, straw yield/fad, fibre%, fibre yield/fad, seed index and seed as well as oil yields/fad. The Elise plants had greater value of plant height, fibre% and fibre yield/fad when were sown at 1600 seeds/m2. On other score, the Giza 7 plants established at 1600 seeds/m2 gave the highest records of straw, seed and oil yields per fad. At the same-time, the Giza 7 plants attained the highest value of seed index when 800 seeds/m2 was applied (Table 7). Intermediate mean averages of the tested traits of Table 7 were recorded due to sowing both Giza 7 and Elise genotypes seeds with 1200 seeds/m2.
Over the pooled data of both seasons, the V x N interaction gave significant effects on the flax characters of Table 8 indicating the superiority of Elise genotype in plant height and fibre yield/fad due to 60 kg N level. At the other extreme, the flax plants of Giza 7 cultivar got greater averages as for number of basal branches /plant as well as straw, seed and oil yields/fad in response to the highest N level of 60 kg N/fad. On the other hand, the lowest and medium averages of the tested characters listed in Table 8 were seen in case of 20 or 40 kg N levels/fad.
Best of all, the flax plants of 800 seeds /m2 had greater seed index under 60 kg N level. Moreover, the dense sown plants of 1600 seeds/m2 reflected the greatest mean averages as for the final yields/fad from straw, fibre, seed and oil when the 60 kg N level was concerned (Table 9). Mean-time, the plants of 1200 seeds/m2 possessed intermediate averages respecting all traits of Table 9 under the three examined N levels of 20, 40 and 60 kg /fad.
Conclusively, both dual purpose Giza 7 cultivar or fibre genotype Elise were considerably recommended to be grown under Zagazig conditions, Sharkia Governorate, Egypt due to their superior positive response to the dense planting of 1600 seed /m2 (57.12 or 42.34 kg seeds/fad as for Giza 7 and Elise genotypes, respectively) and the highest N level of 60 kg N/fad under the environmental conditions prevailing in the surrounding media as well as their considerable ability to convert a greater portion of metabolites to their sinks, viz : fruiting forms or fibre units.
REFERENCES
A.O.A.C. (1980). Association of Official Agriculture Chemists. Official Methods of Analysis, 13th ed, Washington, D.C.
Ash-Shormillesy, Salwa, M.E.I. (2001). Effect of seeding rate and fertilization on yield and quality of flax. Ph.D. Thesis, Fac. of Agric., Zagazig Univ., Egypt.
Das, M.N. and N.C. Giri (1986).Design and Analysis of Experiments. 2nd Eddition, John Wiley and Sons. Inc., New York, USA.
Duncan, D.B. (1955). Multiple range and multiple F-tests, Biometrics, 11:1–42.
El-Azzouni, A.M.; E.A. Moawed and S.M. Salama (2003). Effect of seeding rate, potassium fertilizer on some genotypes of flax (Linum usitatissimum L.). J. Agric. Sci. Mansoura Univ.,28(8) : 5887-5902.
El-Deeb, T.A.E.; N.A. Mohamed and Eman, A.F. El-Kady (2006). Effect of seeding rates, planting methods and phosphorus fertilizer sources on yield and its components of Sakha 2 flax cultivar. Zagazig. J. Agric. Res.,33(1) : 27 – 45.
El-Gazzar, A.A.M. (1990). Effect of some cultural treatments on flax yield and quality. M.Sc. Thesis, Fac. of Agric., Kafr El-Sheikh, Tanta Univ., Egypt.
El-Gazzar, A.A.M. (2005). Effect of seeding rates, phosphorus and potassium fertilizers on growth, yield and quality of flax. J. Agric. Sci. Mansoura Univ.,30 (12) : 7239-7253.
El-Gazzar, A.A.M. and Eman A. El-Kady (2005). Effect of some growth regulators and nitrogen levels on flax yield and its quality. J. Agric. Res. Tanta Univ., 31(4-A) : 630-646.
El-Gazzar, A.A.M. and M.E.A. Kineber (2002). Response of flax yield and quality to nitrogen fertilizer and its sources. J. Agric. Res. Tanta Univ.,28(1) : 93 – 104.
El-Gazzar, A.A.M. and T.A. Abou-Zaied (2001). Effect of seeding rate and nitrogen levels on yield and quality of some flax cultivars. J. Agric. Res. Tanta Univ.,27(4) : 607-619.
El-Sabbagh, A.A.; S.A. Abd El-Hafez and El-Sh. T. Abou-Ahmed (1998). Response of some flax cultivars to water stress. Menufiya J. Agric. Res.,23(5) : 1367-1376.
El-Sweify, Amna, H.H.; E.A.F. El-Kady and S.M. Gafar (1996). The influence of harvesting time and row spacing on the quantity, quality and chemical composition of some flax cultivars. J. Agric. Sci. Mansoura Univ.,21(10) : 2421 – 2428.
Esmail, S.E. and M.R. Morsy (1994). Flax plants performance as influenced by seeding rate and harvesting date and their response curves. Menufiya J. Agric. Res.,19(5) : 2243 – 2255.
Ghanem, S.A.I. (1990). The influence of N fertilization and harvesting dates on oil, fibre yields and their contributing characters of flax. Zagazig J. Agric. Res.,17(3A) : 575-587.
Kineber, M.E.A. (2003). Flax plants performance as influenced by planting methods and seeding rate. J. Agric. Res. Tanta Univ.,29(1) : 64 – 73.
Kineber, M.E.A. ; A.A.E. Mohamed and E.A.F. El-Kady (1997). Influence of planting method and seeding rate on yield and its components of some flax genotypes. J. Agric. Res. Tanta Univ.,23(3) : 289 – 299.
Kineber, M.E.A. ; S.Z. Zedan and E.A.F. El-Kady (1998). Response of flax variety Giza8 to different levels of nitrogen and foliar application of some microelements. J. Agric. Sci. Mansoura Univ.,23 (8) : 2591 – 2599.
Moustafa, S.H.; M.E.A. Kineber and A.A.E. Mohamed (2003). Effect of inoculation with phosphorine and nitrogen on flax yield and some anatomical characters under different nitrogen levels. J. Agric. Sci. Mansoura Univ.,28(6) : 4307-4323.
Zedan, S.Z.; M.E.A. Kineber and S.H. Moustafa (1997). Response of flax to potassium and nitrogen fertilization under sandy soil conditions. Egypt J. Agric. Res.,27(2) : 729 – 743.
تأثیر معدل التقاوی والتسمید النیتروجینی على المحصول فی الکتان
عبد الرحمن السید أحمد عمر - سلوى محمد الیمانی إبراهیم الشرملسى
قسم المحاصیل – کلیة الزراعة – جامعة الزقازیق.
أجریت هذه الدراسة فى محطة البحوث الزراعیة (موقع غزالة) – کلیة الزراعة – جامعة الزقازیق – جمهوریة مصر العربیة فى الموسمین 2002/2003 ، 2003/2004 لبحث تأثیر معدل التقاوی (800 ، 1200 و 1600 من البذور /م2 والتسمید النیتروجینی (20 ، 40 و 60 کجم ن/فدان) على بعض الصفات الهامة والمحصول النهائی فى وحدة المساحة لصنفی الکتان إلیز (Elise) وجیزة 7 (Giza 7). تم استخدام نظام القطع الشقیة من الدرجة الثانیة ذو الثلاث مکررات فى التصمیم التجریبی ، حیث شغلت القطع الرئیسیة بالصنفین ، ووزعت معدلات التقاوی الثلاث فى القطع الشقیة الأولى ، بینما کانت مستویات التسمید النیتروجینی الثلاث فى القطع الشقیة الثانیة ، حیث کانت مساحة أى من هذه القطع 6 م2 (2 × 3 م).
أوضحت الدراسة تفوق الصنف المحلى جیزة 7 معنویاً على الصنف المستورد Elise فى کل من : قطر الساق، عددی الفروع السفلیة والقمیة / نبات ، محصول القش /فدان ، عددی الکبسولات والبذور/ نبات ، دلیل البذرة ، محصول البذور /فدان ، نسبة الزیت فى البذور وأخیراً محصول الزیت/فدان. من ناحیة أخرى ، فاق الصنف Elise الصنف جیزة 7 فى : ارتفاع النبات ، الطول الفعال ، نسبة الألیاف ومحصول الألیاف / فدان. ظهرت هذه الاختلافات الصنفیة بوضوح فى کلا الموسمین وفى التحلیل المشترک لهما.
أعطى معدل التقاوى 800 بذرة /م2 أعلى القیم معنویاً فى قطر الساق ، عدد الفروع السفلیة وکذا القمیة/نبات ، عدد الکبسولات وبالمثل البذور /نبات ، دلیل البذرة وأخیراً نسبة الزیت فى البذور. وعلاوة على ذلک ، فاق المعدل 1600 بذرة/م2 المعدلین 1200 ، 800 بذرة/م2 فى کل من : ارتفاع النبات ، الطول الفعال، نسبة الألیاف وأخیراً المحصول النهائی فى وحدة المساحة من : القش ، الألیاف ، البذور والزیت. ظهرت هذه الاختلافات الجوهریة بین معدلات التقاوی فى کلا الموسمین وفى التحلیل التجمیعی لهما ، على التوالى.
کشفت النتائج أیضاً وجود اختلافات معنویة بین مستویات التسمید النیتروجینی الثلاث (20 ، 40 و 60 کجم ن/فدان) ، حیث أعطى المستوى 20 کجم ن/فدان زیادة معنویة فى نسبة الألیاف ومحتوى الزیت فى البذرة. بینما ، نتج عن إضافة المستوى 60 کجم ن/فدان أعلى القیم لباقى الصفات تحت الدراسة وهى : ارتفاع النبات ، الطول الفعال، عدد الفروع السفلیة وکذا القمیة / نبات ، محصول القش وبالمثل الألیاف / فدان ، عدد الکبسولات وبالمثل البذور/ نبات، دلیل البذرة وأخیراً محصول البذور وأیضاً الزیت/فدان ، وقد ظهر هذا التأثیر بوضوح فى کلا التجربتین وفى التحلیل المشترک لهما.
أظهرت نتائج تداخل الفعل أن المعدل 1600 بذرة/م2 مع المستوى 60 کجم ن/فدان قد نتج عنهما أعلى القیم فی کل من : ارتفاع النبات ، نسبة الألیاف ومحصول الألیاف/فدان (للصنف المستورد Elise) ، عدد الفروع السفلیة / نبات ، وأخیراً المحصول النهائی/فدان لکل من : القش ، البذور والزیت (للصنف المحلى جیزة 7).
التوصیة :
توصى نتائج هذا البحث بتطبیق معدل التقاوی 1600 بذرة/م2 (57.12 ، 42.34 کجم من البذور/فدان للصنف المحلى جیزة 7 والصنف المستورد الیز) مع المستوى 60 کجم ن/فدان وذلک لتحقیق أقصى محصول فى وحدة المساحة من الزیت والألیاف تحت ظروف مزرعة کلیة الزراعة – جامعة الزقازیق – محافظة الشرقیة – جمهوریة مصر العربیة.