Crop Guide: Rice Cultivation Field Trials and Research

Index:

  1. Vietnam
  2. Thailand
  3. India
  4. China
  5. Colombia
  6. Korea
  7. Spain

 

 

For many years, Haifa carried out laboratory and field trials with its products and unique fertilization programs in rice crop. These agronomical activities were performed in several important rice growing countries, as can be seen in the following examples:

 

5.1  Vietnam

5.1.1 Scientific work - Mekong Delta

Research treatments with Haifa Bonus+Mg were carried out in the Mekong Delta to determine the effect of rate and timing of Haifa Bonus+Mg spray.

Table 5.1 describes experiments done with the variety:  OM 1706 which has a typical 99 days life span from sawing to harvest.

 

Table 5.1: Effects of rate and timing of Haifa Bonus+Mg spray on growth and yield, Cuu Long, Mekong Delta, Rice Research Institute, Vietnam - 1997 (Dr. Pham Sy Tan)

Treatment*

Filled

grains/ panicle

Empty

grains

(%)

Grain yield

(t/ha)

Grain yield increase

( t/ha)

%

Control (no spray)

46

15.7

4.56

 

 

Mean for T1-T4 (1%)

4.81

 

 

T1  40 DAS** @ 1%

47

14.5

4.73

0.17

3.7

T2  60 DAS @ 1%

48

16.8

4.78

0.22

4.8

T3  40 & 60 DAS @ 1%

50

14.9

4.83

0.27

5.9

T4  40, 60 & 75 DAS @ 1%

52

17.5

4.88

0.32

7.0

Mean for T5-T8 (2%)

5.05

 

 

T5  40 DAS @ 2%

49

15.9

4.85

0.29

6.4

T6  60 DAS @ 2%

48

13.7

4.90

0.34

7.5

T7  40 & 60 DAS @ 2%

54

15.2

5.19

0.63

13.8

T8  40, 60 & 75 DAS @ 2%

57

14.8

5.25

0.69

15.1

Mean for T9-T12 (3%)

5.17

 

 

T9  40 DAS @ 3%

49

14.2

4.98

0.42

9.2

T10  60 DAS @ 3%

50

13.1

5.17

0.61

13.4

T11 40 & 60 DAS @ 3%

55

16.5

5.22

0.66

14.6

T12  40, 60 & 75 DAS @ 3%

59

12.7

5.29

0.73

16.0

LSD 5%

4.0

 

0.36

 

 

Haifa Bonus+Mg spray at concentrations 1%, 2%, 3%, T = treatment ** DAS = days after sowing

 

Conclusions:

  • The higher the Haifa Bonus concentration checked in this experiment, the higher the number of full grains/panicle and grain yield, and the lower the rate of empty grains.
  • Generally, one treatment at 60 DAS was better than at 40 DAS regarding the above-mentioned parameters.
  • Two treatments at 40 & 60 DAS were always better than one of any one of the two.
  • Three sprays at 40 & 60 & 75 DAS were always better than the two at 40 & 60 DAS; hence the treatment of three sprays always produced the highest grain yield.

 

Table 5.2: The Effect of Foliar Sprays with Haifa Bonus+Mg at 3% on yield and the economical return (Phạm Sỹ Tân, Rice Research Institute, Cantho, Việt nam (1997)

 

Treatments

Grain yield

(t/ha)

Grain yield increase

Haifa Bonus+Mg

cost (US$/ha)

Labor cost

(US$/ha)

Net return

(US$/ha)

%

(US$/ha)

Control, unsprayed

4.56

40

4.98

9.2

49.2

8.4

6.25

34.5

60

5.17

13.3

71.4

8.4

6.25

56.7

40 & 60

5.22

14.4

77.3

16.8

12.5

47.9

40, 60 & 75

5.29

16.0

85.5

25.3

18.75

41.4

 

Conclusions:

  • One treatment at 60 DAS was better than at 40 DAS regarding yield parameters.
  • Two treatments at 40 & 60 DAS were better than one of any one of the two regarding yield parameters.
  • Three sprays at 40 & 60 & 75 DAS were better than the two at 40 & 60 DAS, regarding yield parameters; hence, the treatment of three sprays always produced the highest grain yield. However, under the relative prices of rice labor and fertilizers, one spray at 60 DAS resulted in the highest return on investment.

 

5.1.2 Demo plots in the Mekong Delta in Vietnam

Approximately 100 field demo plots, in four regions in the Mekong Delta of Vietnam were conducted by the local extension services in growers’ fields, coordinated with the Mekong Research Institute. At the end of each relevant growing season, field days and educational program were carried out (see Figures 5.1-5.3) and the local rice farmers saw and learned the benefits of spraying Haifa Bonus+Mg (Table 5.3).

 

Table 5.3: Distribution list of the 100 demo plots in the Mekong Delta, and the contribution of Haifa Bonus+Mg sprays to grain yields in them.

Region

Number of demo plots

Representative grain yield (t/ha)

Increase

Haifa Bonus+Mg

Control

(t/ha)

(%)

An Giang

30

Mean: 6.57

Range: 5.06 – 8.02

Mean: 5.99

Range: 4.48 – 6.83

0.58

9.7

Kieân Giang

20

Mean: 6.70

Range: 6.13 – 7.20

Mean: 6.21

Range: 5.53 – 6.80

0.49

7. 9

Caàn Thô

30

Mean: 6.83

Range: 5.54 – 8.46

Mean: 6.39

Range: 4.90 – 8.00

0.61

6. 9

Soùc Traêng

20

Mean: 6.37

Range: 4.90 – 7.33

Mean: 5.70

Range: 4.20 – 6.36

0.64

11.8

 

Conclusions:

  • All the one hundred demo plots in all parts of the huge area checked, which serves as Vietnam's most important rice producer, yielded positive results to the spraying treatments with Haifa Bonus+Mg.
  • The contribution to grain yields was between 0.5 and 0.65 t/ha, representing yield increment of 7-12%.

 

5.1.3 Scientific experiments in Northern Vietnam (Bac Giang, Nam Dinh)

All following data are based on the scientific work of Tran Thuc Son and Le Xuan Anh, as summed up in the paper: Effect of foliar fertilizers (KNO3, NPK1-ZN, NPK2-MG) for paddy rice on degraded soil of Vietnam.

 

The comprehensive scientific research was done in Northern Vietnam, in two locations, by spraying three different Haifa BonusTM formulae: Haifa BonusTM+ Zn (12-6-38 +Zn), Haifa Bonus+Mg (12-6-38 +Mg) and Haifa Bonus (13-0-46). These fertilizer solutions were sprayed at a 3% concentration, by either two or three applications (Table 5.4) and the parameters that were carefully checked during the experiments were:

  • Number of panicles/m2
  • Number of grains/panicle
  • 1000 grain weight
  • Foliar sprays on rice affected the yield. A significant response was achieved in spring rice also in number of panicles/m2(Table 5.4).

 

Table 5.4: Effect of foliar spraying on yield and yield components of rice in Bac Giang, Vietnam (2009)

 

Treatment

Number of panicles/m­­2

Number of grains/panicle

Weight of 1000 grains (g)

Grain yield

(Quintal/ha)

Spring crop

Un-sprayed

340

90.8 a

20.0

59.0 a

Haifa Bonus (2 sprays)*

343

93.7 b

20.7

62.7 b

Haifa Bonus+Zn (2 sprays)*

335

95.6 b

20.8

62.8 b

Haifa Bonus+Zn (3 sprays)*

348

95.8 b

20.6

64.4 c

Haifa Bonus+Mg (2 sprays)*

344

90.6 a

20.8

62.6 b

Haifa Bonus+Mg (3 sprays)*

330

101.0 c

21.0

66.1 d

LSD 5%

42.0

10.6

0.5

0.8

Summer crop

Un-sprayed

273

121

16.6

43.2 a

Haifa Bonus (2 sprays)*

313

117

17.0

50.3 b

Haifa Bonus+Zn (2 sprays)*

304

116

17.1

49.2 b

Haifa Bonus+Zn (3 sprays)*

298

118

17.6

50.4 b

Haifa Bonus+Mg (2 sprays)*

310

116

17.0

49.6 b

Haifa Bonus+Mg (3 sprays)*

296

121

17.0

49.6 b

LSD 5%

14.3

4.2

0.4

1.5

* Each spray treatment was done at 3% (w/v) solution in 300 L/ha of: Haifa Bonus (13-0-46),   Haifa Bonus+Zn (12-6-38 +Zn) or Haifa Bonus+Mg (12-6-38 +Mg).

 

Conclusions:

  • In the spring crop, highest yields of 66.1 and 64.49 quintal/ha were recorded with Haifa Bonus+Mg and Haifa Bonus+Zn, respectively, 3 sprays each. Treatments with 2 sprays only, resulted in lower grain yields of 62.7, 62.8 and 62.6 quintal /ha, respectively. All spray treatments were superior to the unsprayed control. These results were statistically significant.
  • The treatment of three sprays of Haifa Bonus+Mg was also significantly best from the point of view of number of grains/panicle and weight of 1,000 grains, but inferior to all other treatments regarding the number of panicles/m2, this shows that this parameter has a relatively minor effect on the yield, when dealing with these high levels of yield.
  • In the summer crop, as usual, yields were lower than the spring yields.
  • Highest summer grain yield of 50.3 quintal/ha was achieved with 3 sprays of Haifa Bonus+Zn, and lowest yield of 49.2 quintal/ha was achieved with 2 sprays of 3% Haifa Bonus+Zn™. However, all spray treatments results were not statistically different among themselves, but were statistically significantly superior to the unsprayed control (Table5.4).

 

Table 5.5: Effect of foliar sprayed Haifa Bonus+Zn on rice yield on degraded soil in Bac Giang

 

Treatment*

Spring crop

Summer crop

Yield

Response

Yield

Response

Quintal/ha

%

Quintal/ha

%

Un-sprayed

53.8

 

 

39.2

 

 

Haifa Bonus (2 sprays)

57.7

3.9

7.2

46.5

7.3

18.6

Haifa Bonus+Zn (2 sprays)

57.5

3.7

6.9

45.3

6.1

15.6

Haifa Bonus+Zn(3 sprays)

59.0

5.2

9.7

46.3

7.1

18.1

Haifa Bonus+Mg (2 sprays)

57.7

3.9

7.2

46.1

6.9

17.6

Haifa Bonus+Mg (3 sprays)

58.9

5.1

9.5

45.7

6.5

16.6

LSD 5%

0.8

 

 

2.7

 

 

* Each spray treatment was done at 3% (w/v) solution in 300 L/ha of: Haifa Bonus (13-0-46),   Haifa Bonus+ Zn (12-6-38 +Zn) or Haifa Bonus+Mg (12-6-38 +Mg).

 

Conclusions:

  • In the spring crop, highest yields of 59.0 and 58.9 quintal/ha were recorded with Haifa Bonus+Zn and Haifa Bonus+Mg, respectively, 3 sprays each. Treatments with 2 sprays only, resulted in lower grain yields. All spray treatments were superior to the unsprayed control.
  • In the summer crop, as usual, yields were lower than the spring yields.
  • Highest summer grain yield of 46.5 quintal/ha was achieved with 2 sprays of Haifa Bonus.

 

Table 5.6: Effect of Haifa Bonus on N and K2O uptake by paddy Rice in Bac Giang, Northern Vietnam (2009)

 

Treatment*

N response

K2O response

kg/ha

N %

kg/ha

K2O %

Spring crop

Un-sprayed

83.3

 

108.1

 

Haifa Bonus (2 sprays)

90.0

6.7

118.1

10.0

Haifa Bonus+Zn (2 sprays)

92.3

9.0

123.7

15.6

Haifa Bonus+Zn (3 sprays)

92.8

9.5

121.9

13.8

Haifa Bonus+Mg (2 sprays)

92.1

8.8

125.6

17.5

Haifa Bonus+Mg (3 sprays)

96.4

13.1

127.9

19.8

 

Treatment*

N response

K2O response

kg/ha

N %

kg/ha

K2O %

Summer crop

Un-sprayed

67.2

 

89.4

 

Haifa Bonus (2 sprays)

78.6

11.4

105.7

16.3

Haifa Bonus+Zn (2 sprays)

77.6

10.4

107.1

17.7

Haifa Bonus+Zn (3 sprays)

81.4

14.2

110.1

20.7

Haifa Bonus+Mg (2 sprays)

78.8

11,6

108.5

19.1

Haifa Bonus+Mg (3 sprays)

82.4

15.2

110.5

21.1

* Each spray treatment was done at 3% (w/v) solution in 300 L/ha of: Haifa Bonus (13-0-46),    Haifa Bonus+Zn (12-6-38 +Zn) or Haifa Bonus+Mg (12-6-38 +Mg).

 

Conclusions:

  • N and K2O uptake by rice plants were higher due to the foliar treatments in both growing seasons.
  • The 3-spray treatment with Haifa Bonus+Mg increased N uptake from 83.3 to 96.4 kg/ha in the spring crop, and from 67.2 to 82.4 kg/ha in the summer crop;
  • The said treatment also increased K2O uptake from 108.1 to 127.9 kg/ha in the spring crop, and from 89.4 to 110.5 kg/ha in the summer crop.

Experiments were conducted on paddy rice in North Vietnam by spraying Haifa Bonus, to determine the agronomic and economic their efficiency in two common soil types, namely, degraded and alluvial soils. See Tables 5.7-5.10.

 

Rice cultivar was Khang dan 18.

 

Table 5.7: Effect of foliar-sprayed Haifa Bonus (13-0-46) on yield and yield-components of rice grown on degraded soil, in Bac Giang, Northern Vietnam (Spring crop - 2009)

 

Treatment

Number of panicles/m2

Number of grain/

panicle

1000 grain wt.

(g)

Grain yield (quintal/ha)

Un-sprayed

331

100.8

19.9

61.3

Haifa Bonus (1 spray: 1st stage)*

372

93.1

20.0

65.1

Haifa Bonus (1 spray: 2nd stage)*

375

93.5

19.7

65.2

Haifa Bonus (1 spray: 3rd stage)*

355

99.8

19.8

65.8

Haifa Bonus (2 sprays: 1st & 2ndstage)

385

97.5

19.6

66.8

Haifa Bonus (2 sprays: 2nd & 3rdstage)

359

95.5

19.8

67.0

Haifa Bonus (3 sprays)

366

101.3

19.6

68.7

LSD 5%

32.0

7.4

0.4

1.4

* 1st stage = Active Tillering (AT); 2nd stage = Panicle Initiation (PI); 3rd stage = Flowering (F)

 

Table 5.8: Effect of foliar-sprayed Haifa Bonus (13-0-46) on yield and yield-components of rice grown on degraded soil, in Bac Giang, Northern Vietnam (Summer crop - 2009)

 

Treatment*

Number of panicles/m2

Number of grains/panicle

1000 grain wt. (g)

Grain yield (quintal/ha)

Un-sprayed

324

118

16.7

49.7

Haifa Bonus (1 spray: 1ststage)

324

121

17.1

52.6

Haifa Bonus (1 spray: 2ndstage)

328

119

17.0

52.6

Haifa Bonus (1 spray: 3rdstage)

330

119

16.9

52.1

Haifa Bonus(2 sprays: 1st & 2nd stage)

330

126

17.1

55.0

Haifa Bonus (2 sprays: 2nd & 3rd stage)

333

123

17.0

54.7

Haifa Bonus (3 sprays)

329

129

17.1

56.2

LSD 5%

7.6

4.6

0.34

0.93

* 1st stage = Active Tillering (AT); 2nd stage = Panicle Initiation (PI); 3rd stage = Flowering (F)

 

Table 5.9: Effect of foliar sprayed Haifa Bonus (13-0-46) on yield and yield-components of rice grown on alluvial soil, in Nam Dinh, Northern Vietnam (Spring crop - 2009)

 

Treatment*

Number of panicles/m2

Number of grains/

panicle

1000 grain wt.

(g)

Grain yield

(quintal/ha)

Un-sprayed

238

154.8

26.1

77.9

Haifa Bonus (1 spray: 1st stage)

233

156.0

26.7

79.7

Haifa Bonus (1 spray: 2nd stage)

241

156.3

26.7

82.7

Haifa Bonus (1 spray: 3rd stage)

237

149.3

27.3

79.9

Haifa Bonus (2 sprays: 1st & 2ndstage)

250

152.8

26.3

83.0

Haifa Bonus (2 sprays: 2nd & 3rdstage)

254

144.7

27.3

83.1

Haifa Bonus (3 sprays)

240

160.0

27.5

86.8

LSD 5%

18.8

15.0

0.8

5.8

*1st stage = Active Tillering (AT); 2nd stage = Panicle Initiation (PI); 3rd stage = Flowering (F)

 

 

Table 5.10: Effect of foliar sprayed Haifa Bonus (13-0-46) on yield and yield-components of rice grown on alluvial soil, in Nam Dinh, Northern Vietnam (Summer crop - 2009)

 

Treatment*

Number of panicles/m2

Number of grains/

panicle

1000 grain wt. (g)

Grain yield

(quintal/ha)

Un-sprayed

283.3

111.5

22.1

56.3

Haifa Bonus (1 spray: 1st stage)

261.0

128.8

22.0

60.2

Haifa Bonus (1 spray: 2nd stage)

266.8

128.3

21.9

61.3

Haifa Bonus (1 spray: 3rd stage)

292.8

114.3

22.1

60.6

Haifa Bonus (2 sprays: 1st & 2ndstage)

287.3

119.5

22.1

62.3

Haifa Bonus (2 sprays: 2nd & 3rdstage)

267.5

128.3

22.2

62.6

Haifa Bonus (3 sprays)

279.0

128.8

22.1

65.9

LSD 5%

23.2

8.3

0.39

3.7

* 1st stage = Active Tillering (AT); 2nd stage = Panicle Initiation (PI); 3rd stage = Flowering (F)

 

Conclusions:

  • Foliar spray of 3% Haifa Bonus invariably increased the number of panicles/m2, number of grains/panicle and 1000 seed weight. Same results were obtained in the two very different soil types (degraded and alluvial), and in both growing seasons (spring and summer crops).
  • Highest yields were always achieved by spraying 3 times 3% Haifa Bonus at 300 L/ha/spray (total 900 liters) during AT, PI and F stages. Haifa Bonus treatments, on degraded soil, in Bac Giang, resulted in: additional 7.4 quintal/ha (12.1%) in spring rice, and additional 6.5 quintal/ha (13.1%) in summer rice, (Table 5.7 - 5.8). And on alluvial soil in Nam Dinh, these sprays resulted in additional 8.9 quintal/ha (11.4%) in spring rice and 9.6 quintal/ha or a record increase of 17.1% (!!) in summer rice (Tables 5.9 – 5.10).
  • Somewhat smaller yield response was achieved by applying two sprays of 3% Haifa Bonus (total of 600 L/ha) during AT and PI stages or PI and F stages. The average additional yield achieved on degraded soil was 5.6 quintal/ha (9.1%) in spring rice, and 5.2 quintal/ha (10.4%) in summer rice. The average additional yield achieved on alluvial soil was 8.7 quintal/ha (6.6%) in spring rice and 6.2 quintal/ha (10.9%) in summer rice.
  • Lowest yield response of (3.3-6.5%) was achieved by applying only one spray of 3% Haifa Bonus in 300 L/ha during AT or PI or F stages. There was no preferable application timing when comparing these growth stages.

 

5.2 Thailand

5.2.1 Research Project in TJC Research Center in Suphanburi

A research project of foliar treatments with Haifa Bonus was carried out on rice crop in 1998.

 

Figure 5.1: Research Center, Suphanburi, Thailand

 

 

Rice variety:

Chainat-1

Application rates:

400 or 600 g/20 liters (2% or 3% respectively)

Spray volume:

500 L/ha

Application timing:

40, 60 and 75 DAS

Design:

RCB  4 treatments with 3 replicates

Period:

June - September 1998

 

Table 5.11: The efficacy ofHaifa Bonus (13-3-43) foliarfertilizer in direct-sown rice

 

 

Treatment

Rate

g /20 L

Filled grains

(%)

Yield

kg/ha

% over control

Unsprayed

79.7

5,763

N/A

1 spray @ 40 DAS

400 (2%)

81.1

6,010

4.3

2 sprays @ 60 & 75 DAS

600 (3%)

82.6

6,343

10.1

3 sprays @ 40, 60 & 75 DAS

600(3%)

86.0

6,706

16.3

2 sprays @ 60 & 75 DAS of the local commercial foliar fertilizer 10-52-8

400 (2%)

80.2

6,093

5.5

Conclusions:

  • Three foliar sprays of 3% Haifa Bonus (13-3-43) at 40, 60 and 75 DAS (days after sowing), produced the highest percentage of filled grains and highest yield.

 

5.2.2 Field trial in Nakornpatom by Haifa team

Figure 5.2: Haifa's active participation in carrying out field research in Thailand

 

Table 5.12: The effect of three foliar applications with Haifa Bonus (13-3-43) on two cultivars, on yield and net profit

 

Treatments*

Yield

(t/ha)

Increased output / ha

Haifa Bonus cost (product + application (US$/ha)

Net profit ($ US/ha)

kg

%

US$/ha***

Cultivar: Photong  (100 days)

Unsprayed

6.63

30, 60 & 75 DAS**

8.35

1,720

25.9

294

31.50

262.5

Cultivar:Suphan 1(120 days)

Unsprayed

7.03

30, 60 & 75 DAS

8.20

1,170

16.6

200

31.50

168.5

* Spray volume 375 liter/ha

** DAS = Days after sowing. Product concentrations were 2%, 3% & 3%, respectively.

*** Calculation based on yield value = 171 US$/t of rice grain

 

Conclusions:

  • Three foliar sprays of 2%, 3% and 3% of Haifa Bonus (13-3-43) at 40, 60 and 75 DAS (days after sowing), produced markedly higher yield, and net profit to the grower. The cultivar with shorter growth cycle better profited from these treatments.

 

5.3 India

Table 5.13: The effect of Haifa Bonus (13-3-43) on rice, 1997

 

Treatment

 

Grain Yield

(t/ha)

Increase over control (%)

Additional net income

(Rs./ha)

Unsprayed

5.83 a

3 sprays of Haifa Bonus @ 1%, at 30, 60 & 75 DAS

6.32 b

8.4

1305

CD (p=0.05)

0.31

Conclusions:

  • Three foliar sprays of 1%, of Haifa Bonus (13-3-43) at 40, 60 and 75 days after sowing, produced markedly higher yield, and net profit to the grower.

 

5.4 China

Table 5.14: The effect of Haifa Bonus foliar application on rice,AAS, Shanghai, China, (1995)

Treatment

Yield (kg/ha)

Yield increase / ha

Haifa Bonus(US$/ha)*

Net profit

(US$/ha)*

kg

%

US $*

Unsprayed

12,930

TwoHaifa Bonus sprays at 3% @ 30 and 60 days after transplanting **

14,340

1,410

11.5

215.6

21.1

194.4

* Rice price: 1.3 RMB/kg; Haifa Bonus price: 4 RMB/kg; Exchange rate:  8.5 RMB = 1 US$

** Spray volume: 750 L/ha

 

Table 5.15: The effect of 2 Haifa Bonus foliar applications on rice at days after transplanting, Guangxi province, S&F Institute, (1994-1995)

 

Treatment*

No. of grains/ear

Grains

filling rate

(%)

Yield (kg/ha)

Increase/ha

Haifa BonusCost (US$/ha)**

Net Return (US$/ha)**

kg

%

Unsprayed

128

76.3

4,815

 

 

 

 

Two Haifa Bonus sprays at 2%at30 & 50 DAT***

 

130

 

84.2

 

5,385

 

570

 

11.8

 

14.1

 

73.0

Two Haifa Bonus sprays at 4%at30 & 50 DAT

 

132

 

84.4

 

5,557

 

742.5

 

15.4

 

28.2

 

85.3

Two Haifa Bonus sprays at 6%at 30 & 50 DAT

 

135

 

86.4

 

5,812

 

997.5

 

20.7

 

42.3

 

110.2

* Spray volume: 750 L/ha   Pre-plant fertilization: 240 kg/ha of N; 67.5 kg/ha of P2O5; 90 kg/ha of K2O

** Rice price: 1.3 RMB/kg Haifa Bonus price: 4 RMB/kg; Exchange rate:  8.5 RMB = 1 US$

*** DAT= days after transplanting

 

Conclusions:

  • There was a clear-cut advantage to the treatment employing two foliar sprays of 6% Haifa Bonus (13-3-43) at 30 and 40 days after transplanting, over treatments of 2% and 4%. The 6% produced markedly higher (+21%) yield, and a considerable additional net profit to the grower.

 

5.5 Colombia

Table 5.16: The influence of number and timing of foliar sprays with Haifa Bonus (13-3-43), on yield of upland rice, cultivar:Orizica Yacu 9. (Source: Ricardo Guerrero R., Armando Ortiz Gonzalez - Colombia, 1998)

Treatments*

Grains

filling rate

( % )

Grain yield

Haifa Bonus spray*

Crop

stage**

kg / ha

Yield increment over control (%)

Unsprayed

 

80.3  c

7300  e

3 Sprays

1 + 2 + 3

82.4  bc

8300  bc

14

2 Sprays

1 + 2

85.0  ab

8600  b

18

2 Sprays

1 + 3

87.7  a

9200  a

26

2 Sprays

2 + 3

83.0  ab

8000  cd

9

* All treatments received ‘grower’s practice’ of soil applied fertilizers. Spraying rates were always 2%  Haifa Bonus @ 350 L/ha.

 ** Crop stages: 1) Flower initiation; 2) Flowering; 3) Grain formation

 

Conclusions:

  • Although this experiment took place in totally different conditions than the ones previously described for Asia, the results are very consistent.
  • Treatments employing two foliar sprays of just 2% Haifa Bonus (13-3-43) at flower initiation and flowering, or grain formation added up to 26% to the grain yield.
  • Grain filling rate was again in full accordance with grain yield.

 

5.6 Korea

An experiment with Controlled Release Fertilizer (CRF) for paddy rice was carried out by the Experiment Institute, Agriculture & Life Science Research Center, Seoul National University, Korea in 2002.

  • Cultivar: Chucheongbyeo (ecotype Japonica)
  • Commercial recommended nitrogen rate: 150 kg/ha

The composition of the CRF fertilizer checked (Multicote™) was 13-6-7+2MgO+0.2B2O3. Eight of the 13% N were coated urea granules, (CoteN™), while the balance of the 5% were uncoated urea granules.  This advanced fertilizer was compared with local farmers' practice of the commercial compound fertilizer: 21-17-17.  The application rates of the CRF fertilizer Multicote™, were comparable with the local farmers' practice (100% N recommended, treatment T3), or only 80% of this rate (T2).

 

Fertilization:

(T1) Control treatment:

  • Base dressing (BD): 50% N recommended with 21-17-17, 357 kg/ha
  • Topdressing at Tillering stage (TDT): 20% N with Urea at 14 DAT, 65 kg/ha
  • Topdressing at Panicle Initiation stage (PI): 30% N with NK fertilizer, at 57 DAT

(T2, T3) Two CRF (Multicote™) base-dressing treatments:

  • T2 (80% of recommended N), at 923 kg/ha
  • T3 (100% of recommended N) at 1,154 kg/ha

Treatment

BD Fertilizer

N-P2O5-K2O-MgO-B2O3

Fertilization split N %

BD

TDT

FPI

T1, control

21-17-17

50

20

30

T2, Multicote™

13(8)-6-7+2+0.2

80

0

0

T3, Multicote™

13(8)-6-7+2+0.2

100

0

0

 

Table 5.17: Yield components, yield and protein content

 

Treatment

Panicles

(no./m2)

Spikelets

(no./panicle)

1000 grain weight (g)

RGR

(%)

Yield

(kg/10a)

Protein

(%)

T1

355

88

23.7

70

535

7.3

T2

376

89

23.6

73

582

7.3

T3

384

99

23.2

70

612

8.0

LSD 5%

21

ns

ns

ns

43

0.6

 

Conclusions:

  • Comparing with the local commercial treatment control (T1), CRF treatments (T2 & T3) have shown earlier tillering, higher tiller number and higher panicle number at harvest.
  • T2 and T3 were significantly higher than T1 regarding dry weight and N absorption rate. T3 had highest N content in the plant but there was no significant difference between T1 and T2.
  • Yield was significantly higher in the CRF treatments (T2, T3) than in the control (T1), probably because CRF treatments bore more panicle and spikelets. There was no significant yield difference between the CRF treatments but protein content of milled rice was significantly higher in T3 than T2.
  • As CRF fertilization has longer nutrient-effective period than the conventional fertilization, just one base dressing of the CRF, produced better nitrogen nutrition over the entire growth period. One CRF fertilizer application has proven advantageous in tiller number, panicle number and yield over the conventional fertilization, even though it has been split to three applications along the growth season. By applying 100% of recommended N fertilization in the form of CRF (T3), the grain protein content was too high which causes a reduced cooked taste quality.
  • Therefore, the CRF treatment applying 80% of recommended N (T2 in the experiment) is the optimal fertilization recommendation bringing about higher yield but equal protein content level as conventional treatment.

5.7 Spain

Experiment series with Controlled Release Fertilizer (CRF) for rice were carried out in the rice department of the (Valencia Institute for Agricultural Research), Sueca - Valencia, Spain, in 2002-2003, (Carreres, Pomares, and Ballesteros).

 

Cultivars: Ullal, (semi-dwarf, medium grain) in 2002 and Senia (intermediate stature, medium grain) in 2003.

 

The CRF fertilizer checked was CoteN™, coated urea granules (40% N), and it was compared with five other N sources that were all applied at 130 kg/ha of N, including:

  • Urea prills
  • Urea combined with dimethyl pyrazole phosphate (DMPP) at three different contents rates (w/w), namely 0.5, 0.75 or 1% of the urea content.

Table 5.18 shows only the parameters in which the differences between the treatments were most obvious.

 

Table 5.18: Effect of nitrogen fertilizer source on agronomic performance, grain yield and N responses of rice plants

 

 

N source

Plant height (cm)

Lodging (%)

Grain

yield

(t/ha)

No. panicles/m2

N uptake

(kg/ha)

N recovery efficiency (%)

No N

74.0

0.5

3.61

274

44.6

Urea

95.7

23.0

6.73

385

82.7

29.3

CoteN™

98.2

72.2

8.00

453

105.2

46.6

Urea+ DMPP 1%

96.2

34.8

7.08

388

78.4

26.0

Urea+ DMPP 0.75%

96.2

26.0

7.14

399

87.1

32.6

Urea+ DMPP 0.5%

95.7

21.2

7.24

403

86.3

32.1

LSD 5%

3.6

15.7

0.66

46

9.4

7.0

 

Conclusions:

  • The results showed that CoteN™ applied before flooding was the best N source for grain yield and N recovery efficiency. Its intense effect was shown also by the high lodging rate of the intermediate stature cultivar only.
  • Urea combined with DMPP was better than conventional urea
  • N recovery efficiencies as high as 80%!!! were obtained at another series of experiments carried out by this research group, when several coating rates and pre-flood N application rates were checked.

 

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