Tree Fungus Treatment

Tree Fungus Treatment

Rainwater harvesting has a visible primary increase in the latest years and that is something each person ought to adopt. With rainwater harvesting, houses can shop the water they get from the rain after which use it after they want it in dry conditions.

Top 5-step use organic solution can solve almost any tree problem


A review of anti-desiccation measures under development and in use.

Drought occurs when an area receives below-average rainfall. Contrary to the simplicity of this definition, the current scenario is devastating.

However, we humans have the ability to think and use our skills to design solutions and in this article we will look at some of these methods.

1. Desalination of water

Even though more than 70% of the earth's surface is covered with water, only 0.003% is fresh water. In many places around the world, annual precipitation is the only way to replenish freshwater sources.

 But what if we could desalinate the water “So we have oceans that help us get fresh water. But it's easier said than done. Desalination of water requires a significant amount of resources

. First of all, the water must be boiled, converted to steam and then condensed. requires a significant amount of fossil fuels to generate heat. But hope is still present as developments in the field have made graphene filters capable of desalting water with nothing but hydrostatic pressure.

2. Rainwater harvesting

Rainwater harvesting has visible primary increase in latest years and that is some thing absolutely each person ought to adopt. With rainwater harvesting, houses can shop the water they get from rain after which use it after they want it in dry conditions.

In city regions, handiest 15% of rainwater enters the floor whilst in rural regions 50% of rainwater is absorbed into the floor. Rainwater harvesting gives each city and rural regions with an green choice to shop rainwater after which reuse it in instances of drought

3. Drip irrigation

Drip irrigation hopes to achieve optimum water supply for plants and optimum moisture in the soil. The advantage of such a system is that it does not waste water.

Today, many companies have stepped forward providing the market with affordable and intuitive drip irrigation systems. The highly focused nature of drip irrigation ensures that each plant receives the right amount of water directly to its roots.

4. Harvesting water from the air

Air as we know it contains many elements and one of them is humidity. If we could build something efficient to collect this moisture and condense it, we could collect water from the air.

 And that's what the MIT researchers did! This solar-powered device uses a large area of ​​pores in organic metal frames (MOFs) to capture water vapor and pass it between two temperature zones to condense it.

 A field test in Arizona was successful and the team now hopes to expand the system so that it can produce several gallons of water in a short period of time. The two main advantages of this system are that it can collect water without using electricity and the ability to produce water in desert climates.

5. Crop engineering

We can build new mechanisms outside of plants to keep them watered and safe from drought, but we could also genetically modify them to make them resistant to conditions where the soil's water content is very low.

 Food production is a crucial element in keeping populations alive; however, drought can affect productivity and upset the food balance available to the masses.

 Crop engineering hopes to modify the genetics of existing crops to help them increase yields and provide them with better drought tolerance. A research project of Achieving Increased Photosynthetic Efficiency (RIPE) has been successful in improving the way bodies use water, up to 25% therefore more efficient. Several organizations around the world have done research to design crops that can withstand the harshness of drought.