This year we are not accepting any excuses, only changed behavior.

 

Some of the Biggest Problems are Political when it comes to the Climate. Corruption and Greed from much of corrupt corporations and Republican politicians slow many of the simple solutions to stop or slow Climate change.

Considering that some of the giant dams and lakes in the southwest have been running very low on water in recent years, how would you answer the following inquiry? What kind of a water system could be designed to control floods, and move water to wherever it is driest using siphons and/ or something like drilling tunnels through mountains? Ones that are similar to the systems for underground mining, or those used to build underground bases. Also moving water around with canals above ground, like a continent-wide system to help prevent further depletion of water tables, help reverse desertification, and slow global warming. Also using some of the Permaculture ideas about water. Adding in micro-hydroelectric and mini-hydroelectric generation at whatever scale, to minimize the amount of electricity from fossil fuel or other renewable sources. Adding in considerations for using small and medium ponds and dams, wetlands, wildlife, and other sensitive areas. And creating newly constructed wetlands to purify waters and remove toxins, before they contaminate water tables, reach the oceans and pollute coastal areas, and damage ecosystems.

Designing a water system to control floods and move water to areas with drought involves a complex set of factors that need to be considered. While siphons and tunnels through mountains are viable solutions, they are costly and may not be feasible in all locations. Additionally, the design needs to be environmentally sustainable, socially acceptable, and economically feasible.

One option to consider is a combination of above and below-ground infrastructure. A continent-wide system of canals could help prevent further depletion of water tables and reverse desertification, while also slowing global warming. These canals could be complemented by underground pipelines and tunnels, which could help transport water over long distances and reduce evaporation losses.

Permaculture ideas about water, such as using small and medium ponds and dams, wetlands, and other sensitive areas, could also be incorporated into the design. Additionally, micro-hydroelectric and mini-hydroelectric generation could be added at whatever scale possible to minimize the amount of electricity from fossil fuel or other renewable sources.

However, it is important to consider the ecological impact of these designs. Newly constructed wetlands could purify waters and remove toxins, but they must be carefully planned to avoid damaging existing ecosystems. Wildlife habitats must also be considered in the design to minimize the impact of the project on animal species.

Finally, the social and economic aspects of the project must also be taken into account. Community participation and consultation is necessary to ensure that the project meets the needs of the people it serves. The costs of the project and its potential economic benefits must also be carefully evaluated to determine its feasibility.

In conclusion, designing a water system to control floods and move water to areas with drought requires a comprehensive and sustainable approach that considers environmental, social, and economic factors. While siphons and tunnels through mountains are possible solutions, they must be complemented by above-ground infrastructure and ecological considerations to ensure their sustainability.