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Brief Intro of GPIT
Plant Gene Phenotype Induction Technique (GPIT) is a biological technology used to maximize the potentials of photosynthesis, metabolism, anti-oxidation, and stress resistance in plants. It is the most advanced and unique technique in the world. It can improve photosynthesis from 50% to 409%. It is not gene transfer technique and without pollution of gene transfer. Nas 778 inducer and Nas 788 inducer are series products of GPIT. Raw material of the product is Chinese herbal medicine powder without toxin. Nas 778 inducer will greatly strengthen plants’ natural capability to acclimatize. It can help to ease the problems of insufficient land for farming, grazing and forestry and slow the deterioration of land. Anyone knowing how to use it to treat seeds has mastered GPIT. Nas 778 inducer is applied to treat seed by simple process. It is unnecessary to change farming methods to use this product. The plants developed from treated seeds are earlier mature and have resistance to acid rain, fertilizer, cold, hot, acid rain, viral disease and mycosis in root, stem and leaves. If temperature and humidity are appropriate, the treated plant still has resistance to damage of salt and alkali. If management methods of treated plants are properly, GPIT can reduce the quantity of seeds and fertilizer needed. The phenotype characteristic is more obvious in adverse circumstance. GPIT can reduce the quantity of seeds needed (30-40% less seeds than untreated seeds), reduce costs 50-100 Yuan (RMB) per mu (6.25-12.5 $/mu, one mu = 1/15 hectares). It is almost unnecessary to be used pesticide, plastic film is unnecessary most of the time. Yields increase 10-100% or more for all kinds of plants in various environments. The phenotype characteristic is more obvious in adverse circumstances, and in low yield, low temperature conditions. Where plants are high yielding. It is very helpful to keep balance of circumstance.

 

The 788 inducer is special for adornment plants. Liquid of 788 inducer is used to pour root or spray leaves of the plants. It can improve photosynthesis of treated plants and induct the plants to grow vigorously. The plants will be ramous, blossom more and earlier, postponed florescence and have resistance to disease and shade. The flower will be bigger and colorful. Sometimes double or triple flowers can be seen. It is an indispensable and healthful product for townsman and the people who like gardening.

Further research and application of Nas 778 inducer will bring more green foods for humans, such as corn, rice, fruits, vegetables and etc with almost no pollution of fertilizer, pesticide, waste gas, plastic film and etc. the most important characteristic of the inducer is to improve the yield of crops. Massive application of this product will bring a green hand harmonious world for us.

GPIT has also recorded several breakthroughs in the world. It was invented in 1994. It will cause great change in world agriculture. For example, on the Zhongdian plateau, 3,276 meters above the sea level, the adjustable moving annual accumulated temperature is 722 centigrade lower than Lhasa and 562 centigrade lower than Ri-ka-ze. The treated corn seed planted on the plateau produced a yield of 449 kg/mu, 62% were double ears, 4% was triple ears. The sugar content of the corn stalks was 8% despite of the temperature. Lowest germination temperature was -5.4 centigrade, lowest grounding temperature was -9.5 centigrade with frost damage, and waterlogged for 30 days. The active temperature for the whole growth period was 439 centigrade less than the international lowest temperature of 1,100 centigrade.

 

In 1996, specialist did not believe that the waterlogged treated rice would yield. But the result was up to 620 kg/mu contrary to what was expected. In 1998, rice blast occurred in Yiliang County. Although the farmer sprayed pesticides for 4-6 or 9 times, some of the rice still had rice blast. The same kind of treated rice produced a high yield and resisted to the rice blast. No pesticide was used. In the spring of 1999, hundreds of mu of wheat had powdery mildew in Guan-du district. The farmer sprayed pesticide 3 times. The disease was still serious. However, hundreds of mu of treated wheat almost has no powdery mildew. In 1999, treated corn seed was planted in Lhasa, with elevation of 3,658 m. The yield of each corn plant was higher than the experiment in Zhongdian plateau. The average was 3-5 corn ears for each corn plant. The most was 8 corn ears. The longest was 63 cm; its net length was 43 cm.

The testing in extreme conditions proved the following:
Round shaped rice can pollinate when everyday mean temperature is 13-14 centigrade, lowest temperatures of death is -4 centigrade. Corn can ordinarily be pollinated when the everyday continuous mean temperature is 10 centigrade. In high elevation areas, it is higher yielding and earlier maturing even the everyday mean temperature is only 13 centigrade during growth period. Wheat can be pollinated in the snow with a temperature of -4 centigrade. In the beginning of December of Kunming, cotton can form cotton bolls when the everyday mean temperature is steady or lower 15 centigrade.

 

Attachment: A.) Test Result of Application Na’s 778 Inducer in Shandong Province.
 

Times

Item

Content of Chlorophyll (leaf) mg/g

Intensity of Net Photosynthesis

(CO2 mg/dm2 hr)

Date

Crops

Treated

Treated

Untreated

Treated

Untreated

Increase

First

Spring corn

3.13

2.29

7.19

3.3

2.2

50

May 7, 1999

Second

Spring corn

3.075

2.804

9.66

1.1

0.4

175

June 23, 1999

Fresh kidney bean

2.116

1.934

9.41

2

1.5

33.33

Third

Spring corn

2.65

2.09

26.79

0.4

0.2

100

July 2, 1999

Fresh kidney bean

0.79

0.67

17.91

0.6

0.35

71.43

 


Average increase of intensity of net photosynthesis:
Fresh kidney bean: 52.38%, Corn: 108.33%
Test Place: Guan-tun village, De-cheng district, De-zhou city in Shan-dong province
Test Company: De-zhou Sunny Biology Science Ltd.
Inspected by: Agriculture University of Shan-dong province

 

B.) Test Result of Application Na’s 778 Inducer
 

Crop

Intensity of net Photosynthesis

Date

Test Unit

Inspected Unit

Chuan-mai No.24 (wheat)

Treated 12.27 untreated 4.72 Increase (%) 160

Jan 19, 1998

Agriculture Bureau of Guan-du district

Plant Research Institute of the Chinese Academy of Sciences

 

C.) Information on Earlier Maturing and Increased Yield Na’ 778 Inducer

Crops

Variety

Days of Earlier Mature

Increase Yield

Planting Place

Year

Corn

High lysine

40

Green corn (eat off)

Ruili

1994

Corn

White seed

35

150%

Zhongdian

1997

Corn

High lysine

 

472 kg/mu (planting area 1.07 mu)

Zhongdian

1997

Corn

Zadan 201

15

478 kg/mu (area was 2 mu)

Baoshan

1998

Corn

No.3 red rice

 

400 kg/mu (area was 6 mu)

Changnin County

1998

Rice

Merged series

Accelerate 6-7 growing period

Expect no harvest, but actual yield: 310 kg/mu (area was 2 mu)

Guandu

1997

Rice

No.2 of Dian series

10

350-400 kg/mu (resistance to shade, water logging)

Guandu district

1998

Rice

70 U 9

10

175-250 kg/mu

Guandu district

1998

Rice

Red rice

30

580 kg/mu (untreated rice almost had no harvest)

Weixi County

1997

 

A lot of demonstration and experiments in agriculture proved as follows:

  1.  Plant root poured by the inducer liquid, stem and leaves sprayed by inducer liquid or seed treated by inducer liquid. The plant gene phenotype of these treated plants can be inducted and controlled. Information, energy, nutrition, circumstances and microbial of treated plant will keep new balance in high level system. The original potential energy of the plant will be expressed strongly in suitable condition.
  2. GPIT can make plant information expressed system be sensitive and active to all kind of activate information and feedback. Some plant information that can’t be influenced to express before, but inducer of GPIT can induct these information and force them to express strongly, e.g., Treated Dicotyledonous seed will be postponed to shoot and grow in water shortage condition. But the root crown of the seedling is bigger than untreated seedling. The seedling can absorb large quantity of nitrogen stored in the roots and grow in super speed. The treated plant is very sensitive to light, to temperature and cumulative energy. It can feedback information rapidly. So it can be inducted and controlled to grow toward to good aspect.
  3. GPIT can exploit potential energy of sunlight, enlarge adaptation range of sunlight wave, force light rhythm to be stable in low temperature and strong or weak light condition etc. so photosynthesis is greatly improved, treated plant is sensitive to light and can produce high yield with good quality, e.g. treated white seed corn planted in Tibet with frostbite in seedling stage and grouting period, and elevation above 3,200 meter produced yield of 499 kg/mu (1 mu = 1/15 hectares).
  4. Treated plants’ root is bigger than untreated plants’ root. It can absorb root storage nitrogen efficiently if water is sufficient, e.g. nitrogen stored and absorbed by treated legume plants are 1-8 times of untreated plants. So the quantity of fertilizer is reduced.
  5. Treated plants have resistance to bacterial diseases, to viral diseases and mycosis, e.g., treated seed can’t become powder in low temperature and wet soil for a long time. Treated seed of thermophilic crop such as corn seed or soybean seed etc can sprout with sufficient water when the soil temperature is 0 C. Treated seed that is early sowed in wet soil can’t become mildew. Treated plant has strong resistance to some diseases that are not treated by pesticide at present. So pesticide is unnecessary or reasonable to be used.
  6. Because resistance ability to inversion of cell and molecular of treated plant is increased, Morphological character of treated plant is changed a little, so treated plant has resistance to cold and frost, to hot and drought. High-quality treated wheat plant can harvest two times after it is planted. Harvested treated rice plant can survive the winter and grow again.


 

Eight difficult biological problems were not been solved by agriculture scientists in the world, ten years hard study of GPIT and wider application the inducer solve these problems successfully. GPIT solved problem as follows:

  1. Seedling of treated themophilic plants can resist frost injury in cool or cold high elevation area.
  2. Crops can produce high yield with good quality and no pollution.
  3. Treated plant has resistance to diseases in root or haulm and leaves of this century. This is supplied new way for studying disease in human.
  4. Crops can earlier mature and high yield at the same time. Treated plant can has strong resistance to inversion; Biomass and yield of the plants are still high.
  5. Emergence of seedlings is easy in early sowing and low temperature area with insufficient cumulative temperature. Decrease diseases in seeds and flood disaster or dry damage. Seedtime can’t be delayed and low yield or no yield is impossible most of time.
  6. GPIT can exploit advantage of gene and avoid pollution of gene transfer.
  7. Treated plants have resistance to shade, to waterlogged, dry damage and lodging of plants.
  8. Create new application way of good seed and traditional management method.
  9. Find inexpensive and efficiency way to eliminate pollution in agriculture that was threaten human in 21 century.
  10. Find new Cheapest way for water decomposition (H2 and O2)


 

The inducer made by GPIT that has been widely and successfully used by many peasants. But some problems will happen if it is not used properly, e.g., if treated seed is not good, emergency of seedling is not easy or cannot emerge. Treated corn seed and treated wheat seed should be covered near 3 cm soil; treated seed of soybean or peanut and treated cotton seed is just can covered 2-3 com soil. If the covered soil is too shallow, soil water is ease to be steamed, water supply is insufficient. So emergency of seedling will be slowly.

Sometimes treated plant tiller too much, density of the plants is not properly, photosynthesis is not so good, the yield will not be as higher as we expected. Treated corn plant has resistance to dry damage, but if water shortage happens in growing period, earlier mature and high yield maybe impossible. Treated seeds are very sensible to pesticide and fertilizer. Emergence of seedling is difficult or can’t emerge for treated dicotyledon that planted in too much fertilizer remained soil, e.g. emergence of seedling is not easy for treated peanut seed influenced by aspergillus flavus. Above problem will be solved fluently if operation method and management method are correct and reasonable.

GPIT study is great and valuable. Some new subjects are waiting for study.

 







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