How To Create Peace And Harmony On Earth
This is a work-in-progress
Introduction
This article is a brief description of how the Earth-human can create a peaceful and harmonic society for all that will conform to the Laws of Creation as given to us once again by Eduard Albert Meier, wiseman, seer and ancient spirit. There is no dithering or political correctness in this article. Only truth and logic of what must be done, either now or later unless we wish to continue to experience a sufferable existence over and over again with each subsequent lifetime, as a global civilisation.
The Procedure To Create Peace and Harmony on Earth
1. Reduce Population To Sustainable Level
The Earth can only support, in total abundance, 529,000,000 using the factors such as amount of fertile arable land and required amount per person.[1]
- Create laws to reduce population of Earth from 7,500,000,000 to 529,000,000 by enforcing a maximum of 2-children per couple.
- Optimum population per country should be calculated using resources in Appendix A.
- Enforcement can include forced sterilisation of offenders and adoption of children once born. Rapists should be forced sterlised also. Victims of rape that produces a child should not be sterilised obviously.
Appendices
Appendix A
- See Overpopulation_Bomb
- See Overpopulation Crusade
- See FIGU Bulletin 10 Readers Question 3 below:
Question 3.
a) In your Overpopulation brochure #3, page 9, you state a family of 5 requires 1 hectare [approx. 2.5 acres] of land to feed itself, maintain a garden, and allow for freedom of movement. But in the next sentence you say that 1 kilometer2 (km2) = [0.39 mile2] should be calculated for every 12-person group.
b) How do you come up with these results when 1 hectare land with an area of 10,000 meters2 (m2) = 100 x 100 meters [approx. 330 x 330 ft] is required for 5 persons [10,000/5 = 2,000 m2] per person—and then you state that 12 persons require 1 km2 [0.39 mile2] fertile land, which amounts to 1,000 m x 1,000 m or 1,000,000 m2 [1,000,000/12 = 83,000 m2] per person?
Fritz Gollmann, Austria
Response:
a) The number of 5 persons per 1 hectare refers to people who live in settlements, such as villages, cities or larger clans and tribal housing areas. This implies that a total of 500 persons should be living on 1 km2 [0.39 mile2] in such areas. And yet, here on Earth the number of people today is a multiple of this recommended total number. Furthermore, in such places, as a rule, neither gardens nor parks are allocated for the required level of self-sufficiency, because one house or apartment is constructed immediately adjacent to another house or apartment. The consequence is that individual families, frequently with many children, live door-to-door beside each other and have, therefore, no open space in which to move about. The "five-person rule" applies only to population clusters such as villages, cities, and the like. On the other hand, we must allow in our calculation 12 persons per 1 km2 when dealing with open, fertile, tillable land, intended for agricultural and horticultural purposes. This type of land is not only intended for personal self-sufficiency but also for the general community's self-sufficiency. Although people within these communities are only able to plant fruit and vegetables, and keep a limited number of animals on their land of 10,000 m2 [107,642 ft2], the amount of arable land does not allow for any full-scale selfsufficiency. And of these 107,642 ft2 specific portions must be allocated for buildings, open-air recreational purposes and the like, which again require external food supplies so the people there can adequately subsist. These supplies must be provided by the agricultural and horticultural land areas where a mere 12 persons live per 0.39 mile2.
b) The optimum total human population a planet can adequately hold is calculated according to how much arable, fertile land is available. The area, in square kilometers, determines the maximum number of humans who should live on it. The total area is then divided by the number of people, taking into account that a certain number of them will live in villages, cities or other larger settlements, while the rest will live on large properties, tended by their tenants in an agricultural manner who will supply food to the people in the villages, cities, and the like.
On Earth we have available approximately 130 million km2 [50.2 million miles2] of icefree, fertile and barren land surface. However, this total land mass must not be used to calculate the optimum human population, for only the fertile land can be used in that calculation. The Earth's fertile land mass originally amounted to 24 million km2 [9.3 million miles2]. This amount of land would have allowed for the problem-free feeding of a total population of 529 million human beings—when taking into account that 5 persons can live on 1 hectare [approx. 2.5 acres] in the villages, cities or other housing areas; if 12 persons can live on 1 km2 [0.39 miles2]; and if it is also utilized for agricultural and horticultural purposes. However, today only 18 million of the original 24 million km2 [7 million of 9.3 million original miles2] of fertile land remain available since the terrestrial population, in a mad breeding spree, created this overpopulation problem and land destruction. The latter two dilemmas have already destroyed 6 million km2 [2.3 million miles2] of this fertile land through the construction of villages, cities, airports, recreational/sport centers, factories, industrial plants, and others. Additionally, the populace has built dams and has induced the formation of bleak deserts in what previously were lush areas. Hence, if the original 24 million km2 or 9.3 million miles2 of fertile land are inhabited by 529 million humans, approximately 22 (or 22.04 to be precise) persons can live on each 1 km2 or 0.39 mile2—not taking into account villages, cities or other settlements. When 18 million km2 [7 million miles2] of fertile land are used in the calculation, 30 (29.38) people of a total human population of 529 million would live on each square kilometer. This means that 18 of 30 persons now would have to live in villages, cities or large settlements, which amounts to approximately two-thirds of the entire population.
Assuming now we have an allotment of 130 million km2 [50.2 million miles2] of ice-free land surface available, this calculates out as 4.06 persons per 1 square kilometer— provided the human population is a mere 529 million. Included in the number of square kilometers are, however, the desert areas, mountains, steppes and tundras along with other barren land masses and forests. Because today's human population has already reached a total of 6.3 billion for the entire ice-free land mass, we calculate that there are 48.46 persons per 1 km2 [0.39 mile2]. Using the same population figures, this gives us 262.5 persons per 1 km2 for the original 24 million km2 or 9.3 million miles2. When the human population is calculated by applying the ratio to the remaining 18 million km2 [7 million miles2] arable land, the results—believe it or not—show 350 human beings per 1 km2 or 0.39 mile2 of land. Of course, in reality this is not the case since many of these people live in villages, cities or other large settlements. If these many humans were to be disbursed over the entire number of square kilometers of remaining fertile land mass, the coverage would actually amount to 350 humans per 1 km2 or 0.39 mile2. This signifies that no agricultural and horticultural organizations whatsoever could operate on this land. The Fischer Almanac provides the following explanation for this situation:
Quote: In 1993, the Earth's 130 million km2 [50.2 million miles2] ice-free land mass was covered by 32% forests, 11% farmland, and 26% pastures. The remaining 31% consisted, among other things, of grassland that was not used for agricultural purposes, marshes, as well as human settlements and transportation infrastructures.
In studying this land on a worldwide basis, a distinct damage pattern of human origin was observed in 1990 upon nearly 15% of the ice-free land surface. Such damage affects 38% of all farmland, 21% of permanent grassland, and 18% of the forests and savannahs.
The largest contributor to the problem of land damage, at 56%, is water erosion, that is to say, the removal of top soil by rain and run-off; and 28% of the damage is caused by wind erosion, i.e., the relocation of soil by the wind.
An annual total of 74 billion tons of soil is lost through water and wind erosion—and only 1-2 tons of soil per hectare [approx. 2.5 acres) are regenerated per year. In Europe and the USA, 17 tons are removed per hectare. In Asia, Africa, and South America 30-40 tons per hectare are removed per year. Indeed, over the past 150 years half of all fertile, arable land has been lost in this manner throughout the many regions.
Of lesser significance, by comparison, is the chemical degradation of the land, which amounts to a global average of 12%.
Soil Degradation
The main categories of chemical and other degradation causes include:
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The type, extent, and cause of ground degradation vary greatly from one region to another. The percentage of degraded surfaces of arable land can range from 16% in Oceania to 75% in Central America (Europe 25%); with degraded permanent grassland the percentage ranges from 11% in North America to 31% in Africa; and with degraded forest and savannahs surfaces, from 1% in North America to 38% in Central America.
With the ever-growing human population on Earth, the loss of fertile, arable ground increasingly brings into question the assured availability of global food supplies.
The world's average per capita arable ground decreased from 0.41 hectare [1.01 acre] in 1961 to 0.24 hectare [0.59 acre] in 1993. Particularly affected by this trend are the underdeveloped countries. In 1993 the per capita available arable ground was only 0.16 hectare [0.39 acre], well below the allotment necessary to cover the 0.17-0.3 hectare [0.42-0.74 acre] minimum average produce requirements for humans.
- ↑ Appendix A