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Jinsan has specially formulated a strict reward and punishment system, as the basis for year-end dividends, in short, there is only one principle, you pay more, year-end dividends you will get more, you pay less, how can you not get much dividends.

More work, more rewards, no hard work, this kind of reward and punishment system is applicable in all eras.

After this reform, the Kim security began to get on the right track, the nineteen guards who braved the rain of bullets and bullets to guard the security guards of the school laboratory, they are really ruthless people who dare to fight, such people, in modern society, are absolutely rare...

With such a group of lions under the leadership, even if the others are a flock of sheep, they will be a flock of sheep with fighting power in the future.

At the gates of today's mechanical research bases, security measures are even stricter than they appear to be at military bases, and every vehicle that enters and exits, whether loaded or manned, must stop and be inspected by the doorman.

Knowing that he was injured and died, the family at home was able to live well, and the Jing God of all the security guards became very unusual.

Although they don't want to die, when it is really dangerous, everyone still dares to rush up.

After all, the salary of 10,000 yuan per month, just these, is absolutely rare in modern society, unless it is an international mercenary, otherwise wherever you go, the salary of a security guard is not so high...

In addition to the physical and mechanical laboratory of Jinlan, the other two are the laboratories of Jin Hu and Tie Yuer.

Jin Lan is a mechanic, and her other branch is Tie Yu'er's plant mining laboratory. About the fruits of copper devouring grass, diesel tree and so on. All of them were transferred to Tie Yu'er's laboratory.

The plants with special functions, such as the golden three bar, the copper grass and the diesel tree, have been comprehensively analyzed and studied. It is intended that this plant will be formed into a series, and the goal is to fully mine the plant in advance.

The original fruit of the diesel tree can be used to refine diesel, the copper grassland can absorb copper, and the iron tree also needs to absorb iron to grow smoothly.

Because the trunk of the iron tree is as hard as iron, it likes iron-containing fertilizers, so it is named the iron tree, and such a tree species, like copper grass and diesel trees, as long as it has its own special mining gene chain. In Tie Yu'er's laboratory, it can be turned into an iron-devouring tree like copper-eating grass.

Recently, they have been speeding up the search for a variety of special plants, among which the iron tree is the easiest to find because it is very common.

Less common, there are also some that have been heard of, like wild wild shallots, and wild shallots, which are the most common indicator plants.

According to the Tang Dynasty's "Youyang Miscellaneous": "There are green onions on the mountain. There is silver below, and there is shallots on the mountains and gold below. ”

In recent years, a large number of wild shallots have been found next to the gold-bearing quartz veins of the Mo and Binjin mines in Huitong County, Hunan Province.

In particular, where the gold-bearing quartz veins flow through, wild shallots grow particularly luxuriantly.

It can be seen that there is a certain scientific truth in the words of the ancients.

Plants such as wild shallots can indicate to people that there are gold mines underground, and become important signs to help people find gold mines.

Geologists call these plants indicator plants, and these indicator plants grow in special places because they need various elements.

There are quite a few prospectors among plants. Plants need to absorb certain minerals in the process of growth, and that place happens to be rich in those ingredients. Then it will dig its roots deeper so that it can absorb more to meet the needs of stems, leaves, flowers, and fruits.

So according to certain anomalies in the growth of plants. By enriching the mineral content of those plants, it is possible to find deposits in that place.

Certain species of plants. In the long process of growth and evolution, in order to better adapt to the natural environment and survive, the special function of prospecting of one kind or another has been formed.

In the ancient books of our country, there have long been records of plants marking mineral deposits, there are silver under the green onion on the mountain, there is lead under the red grass stem, there is gold under the shallot, and there is copper and tin under the ginger on the mountain.

Hai and Zhou Xiangzhi love copper mines.

It is an annual herb of 3050 cm high, with an aromatic smell and an inverted pubescence in the upper part.

The stems are erect and square, and the leaves are oval-lanceolate or ovate-oval.

Prefers to grow on sour soils of copper veins.

If you find a good place where you can grow good sea and state herbs, then you may find copper in that place.

Several large copper mines in Anhui, China are found according to Haizhou Xiangzhi.

The three sè violets eat zinc more vividly, the three sè violets are commonly known as butterfly flowers, the herbaceous stems are branched, the leaves are ovate and oblong-elliptic, the edges are round and obtuse serrate, and the leaves are large at the base and are pinnately deeply lobed into strips.

Chun summer flowering usually has blue, white, yellow three sè per flower, so it is called three sè.

It likes to eat zinc during its growth, and if the color of the pansy in a certain place is unusually bright, it means that the soil of the place is rich in zinc, so it is very likely to find zinc ore in that area.

Tantalum metal is a very important material for the electronics industry and high-tech industry.

However, natural tantalum is more difficult to find.

Through research studies, it has been found that alfalfa contains a considerable amount of tantalum.

It turns out that the roots of alfalfa are able to secrete a lysolytic tantalum, which can dissolve tantalum in the soil, which is then absorbed by the roots and transported to the stems, leaves, flowers and seeds of the plant.

Through actual cāo farming, 40 hectares of alfalfa were harvested and burned to ashes, and 3,000 grams of tantalum metal were obtained.

The nickel-producing tree, also known as the blue sap tree, grows on the island of New Taridonia in the Pacific Ocean, and this tree secretes the sap of blue sè.

After drying and analysis, the nickel content of this liquor is as high as 25 percent, which is nearly 100 times higher than that of commonly mined nickel ore.

By planting this tree in large quantities artificially, nickel can be obtained by collecting the sap of the blue sap tree, just like tapping.

If you don't look for it, you don't know it, and if you look for it, you will be shocked, there are many kinds of reporters in nature.

If you find that Artemisia annua originally grew very tall. In some kind of soil, growth leads to dwarfing. Then the soil may contain boron.

Where heather grows well, tungsten or tin may be stored.

Nickel ore may be hidden in places where needlegrass grows well.

If lupine lentils are growing abundantly in a certain area, it may indicate the presence of zinc underground.

Uranium deposits may be found in places where trumpet vegetables grow best.

Where there is oil, Suaeda grows particularly luxuriantly.

In the underground of the honeysuckle bush. There may be silver ore.

Where pine grows well, there is often aluminum.

Where plantain grows well, there is often zinc ore.

Where mallow flourishes, there are often nickel mines.

Where mugwort grows in groups, manganese ore is often found.

Where wild bitter hemp grows well, iron ore is often buried.

A compound leaf dwarf shrub that indicates that the soil contains gypsum.

Where dwarf cherries grow, most of them are limestone centipede grass.

The rock anchovy fern is a sign of calcium.

In addition, the plant grows very short and stout, and there may be a lot of uranium and thorium in the soil.

Horsetail, chicken foot mushroom, water hyacinth, wild shallot, etc., all have the ability to absorb gold from the soil. So there is a good chance of finding gold in places where these plants grow particularly densely.

Under the instructions of Ye Zhizi, Chinese geologists found a gold mine in Hu, Hui and Tong County in the south and west.

Excessive amounts of nickel and cobalt in the soil can lead to white spots on trees.

In Nevada, USA, remote sensing observations were made to show that the pine trees there glow, which is an indication of high concentrations of molybdenum.

Flower sè can also be found for mineral deposits, and through research and research, it has been found that metals can change the appearance of certain types of flowers.

Manganese turns some inflorescences red.

Nickel will make the petals turn red, and if the flowers of a certain area are redder than their counterparts in a certain area. It may suggest that there may be a deposit of nickel ore in the area.

The relevant components of copper ore can dye wild roses blue.

If the petals of a wild rose in a place appear to be blue, then there is a high probability that there is a copper ore in that place.

In the early days of the survey of zinc mines in Europe, many shallowly buried zinc deposits were discovered based on the yellow flowers of violet.

One leaf can know the mine. The cost of exploring for gold by conventional drilling is high, and RIBEN Metals Mining Group has developed a new method of using leaves to explore for gold deposits, as long as the required leaves are collected. The preparatory investigation can be fully completed.

In 1988, the group began to study the use of serval leaves to detect gold content.

Serval is a broad-leaved tree that grows throughout the mountainous area, and the roots of this plant are deep in the ground. Therefore, it faithfully reflects the gold content in the vicinity.

They used this method to investigate and discover the gold content of the purple leaves of the Yashigari Mine in Kagoshima Prefecture. 10 times higher than in nearby areas.

This is fully confirmed by the results after mining.

More advanced is the use of spectroscopy to analyze the ore that can be known in one leaf.

The mineral composition of green leaves affects the composition of chlorophyll.

Recently, American scientists have developed a spectrometer, which is mounted on an airplane, and the mineral deposits can be found by analyzing the spectrum of the tree canopy in the area where the plane flies.

There are so many magical plants, enough for Tie Yu'er to be busy, and at this time, she will not have time to compete with Jin Hu and them for research projects.

Just such a plant mining study can make them study for a long time.

And Jinsan's goal is to develop all the plants with mining energy.

Not just to let these amazing plants mine, but also to let them prospect.

As long as some of the characteristics of these plants are strengthened in the laboratory, a large number of magical plant prospecting masters will be formed.

And this is just a small means, of course it is good to find the mineral deposits hidden underground in various places, but in modern society, most of the mineral deposits have been found, at this time, even if Jin San finds out that there are rich mineral deposits there, it is very difficult for him to get it.

Good minerals can not be obtained, then it is necessary to use mining plants, plant mining, do not need to find mineral deposits with high taste, as long as the land contains a certain element, the use of specific plants, can be hidden in the land of scattered minerals to collect out, so that although the efficiency is low, but the scope of involvement, the cost is also very low, the income can be obtained, but it is much higher than the mining of rich ore.

How many proven mineral deposits are there in the world today?

These are just concentrated bonanzas, and how many places contain various minerals below one percent?

Not to mention metal ore, just oil, how much can human beings mine now?

Until now, 20 to 50 percent of the oil content in an oil field can be extracted.

The remaining oil has so far been unable to decompose from the oily rocks.

Now in their laboratory, they have collected a lot of mineral-absorbing plants, including gold, silver, copper, iron, tin, zinc, tantalum, nickel, uranium, aluminum, manganese, gypsum, limestone, thorium, cobalt, molybdenum and other minerals.

Although after more than a month of research, Tie Yuer's laboratory has produced a series of results, but compared to various minerals, these are only a small part of them.

But just a small part of the students in the Golden Third College will occupy one-third of the students to study.

And there are only more than 20,000 students in the entire Jinsan College, which is the source of all the students in the surrounding three towns, and more than 10,000 of them are primary school students, they are useless.

There are only more than 10,000 middle school students who can be useful, and most of them are really good at doing experiments, after half a year of training, there are only a few dozen people, but it is these dozens of people who have supported three laboratories.

Fortunately, it is now a holiday, and Jin San directly enriched all those who went to high school and college into the laboratory, so that there were enough 30,000 people.

And these 30,000 people have to be divided into three parts, Tie Yu'er accounts for one-third, Jin Lan accounts for one-third, and Jin Hu and Jin Liang only account for one-third.

Tie Yu'er's laboratory is in plant mining, while the Golden Tiger and Golden Scale Brothers specialize in biological evolution.

And their part of the stall is larger, involving a wider range of research on animals and plants, and they must participate in the evolutionary research of all plants and animals.

The project that Jin San divided to them is actually the foundation of the Jin family.

Sheep embryos, plant jinghua, plant evolution liquid, and a large number of plant gene chains discovered by Jin San made the two of them move towards the full opening of the forbidden area of human life.

On the basis of the biological activity factor discovered by Jin San, the two brothers of Jinhu and Jinscale, according to Jin San's requirements, should be produced in the laboratory in the near future, so that the older generation of the Jin family can live longer.

The core research task of the two brothers is the study of biological cell division, not only to keep human cells infinitely divided, but also to prevent cells from getting out of control and mutating into cancer cells.

If this problem is truly solved, human immortality will no longer be a dream, and cancer will be solved by the way.

Of course, the research direction, Jin San pointed out to the two brothers, Jin Hu and Jin Scale, but to really produce results, I don't know how much effort it will take.

However, since there is already a sheep embryo that increases the life expectancy, which can improve the physical condition of the elderly at home, Jin San is not very anxious. (To be continued.) )