Global warming and rain attractors
Forests attract rain! For example, the humid and cloudy tropics are kept that way by trees. The trees themselves keep things that way, by evaporating large volumes of water through their leaves. Rising vapor condenses to form clouds, rain falls, trees grow, and nutrients are rapidly recycled by bacteria. This is a closed circuit where the trees, the rain and the soil self-regulate their environment.
However, if you open the cycle by cutting down the trees, the rain ceases and arid conditions replace the forests. This is ample proof that forests and rain are closely related.
microorganisms
The rains are not accidental. Microorganisms are responsible for the carbon cycle. Other organisms and plants also release oxygen, methane, and carbon dioxide into the atmosphere. Microorganisms are responsible for transferring carbon dioxide into the atmosphere. Forests also release Co2. Microorganisms, which break down plant and animal waste, can release carbon into the atmosphere if oxygen is present, or methane gas if it is not (anaerobic).
However, when the sun shines, plants photosynthesize to convert CO2 into carbohydrates, releasing oxygen in the process. Chemical reactions with gases cause water to form as water vapor in the atmosphere. Over the ocean, the rapid oxidation of DMS (dimethyl sulfide) in the air forms droplets of sulfuric acid, which provides the nuclei necessary for the condensation of water vapors to form clouds.
The concentration of water vapor in the air depends on the air temperature. Cold air condenses as rain or snow. Clouds form when water vapor in the air condenses or freezes. But for water vapor to condense, cloud condensation nuclei (NCCs) must be present in the atmosphere. The main source of CCN over the oceans appears to be DMS produced by planktonic algae in seawater.
Microorganisms, forests, plants and soil need rain, and all animal life depends on rain to grow their food. So how do microorganisms attract rain?
Wind is generated as a result of the activity of microorganisms, which cause wind-carrying clouds to flow where this activity is most intense. The greater the activity of microorganisms, the greater the amount of gases released into the air. Air temperature changes and places of exchange of cold air and hot air. Clouds and water vapor in the air change the temperature of the air. Air moves from colder to warmer regions of the atmosphere. Thus, the wind moves the rain-carrying clouds towards the forested areas. Forests are also responsible for changing the air temperature over their areas. Therefore, the wind brings rain-carrying clouds, which fall as rain, but fall on forested areas where the greatest biodiversity is found. Landscapes surrounding the largest forested areas benefit from overlapping rainfall.
Mountain ranges can also cause cloud formation when clouds rise to higher altitudes. Then they cool and fall as rain. The fact that most mountainous areas are also covered in forests also helps attract rain-carrying clouds.
The rotating Earth also causes winds to flow around the globe. We have the roaring forties and the trade winds circling the planet. But we also have the Doldrums where the winds are scarce. Winds circling the planets bring rain clouds from above the oceans, which are drawn to forested and mountainous areas. How often have we seen rain fall along the foothills and ridges, which are also well forested, but little to no rain falls on the lowlands? Many areas have an electromagnetic pull with the clouds. Lightning appears to be attracted to certain mineral-based rock formations along hills and ridges. Big cities, with their huge power grids and electrical systems, attract lighting. And the lightning is accompanied by its storm clouds.
A self-regulating climate
Dimethyl sulfide (DMS) is transformed by oxygen in the air to form particles on which clouds condense. Temperature plays a role: warmer conditions lead to more algae activity and increased DMS, leading to more clouds. Cooler, less sunny conditions produce less algae activity and less DMS production, and therefore fewer clouds.
This is a self-regulating climate, unless humans interfere in the process by damaging forests and polluting our atmosphere and our waterways and oceans.
Can humans create rain?
Drought is becoming a serious threat to our agricultural land. Global warming is a contributing factor, but what most people don’t understand is that this problem is caused by the human mind. Anyone who has studied The Law of Attraction understands that the Law of Attraction manifests everything in the material world. The Law of Attraction states: What is similar to itself is attracted.
When you think of something that you like or it is something that you want, due to the Law of Attraction, other similar thoughts will begin to emerge. As your thought becomes more regularly focused and attended to, this thought becomes bigger and bigger. And as this thought gets bigger, it gains momentum and gains power. Therefore, you should only focus on thoughts that please you. Because if you focus and pay attention to the thoughts that you don’t like, that give you a bad feeling, then that is what you will attract to you, which is bad results.
The above says it all. If the majority of people in the nation focus on drought, that’s what we’ll get. But if we can convince enough people to think in terms of the good feelings associated with the coming rain, that’s what we’ll get. This is an interesting thought, one that could change our climate for the better.
To discover more about the Law of Attraction and how to use it to our advantage, visit this site: [http://www.CheckJohn.com] and look for the link of my blog. You will be amazed at how precise and efficient the Law of Attraction is.
Copyright © John Duffey 2007. All rights reserved.
