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Ignoring all political factors, I believe that overpopulation is real. Whilst it is true that the planet has enough physical space for billions more people than exist right now, it does not have the natural resources to support billions more.
Focusing on a singular issue that faces global civilization that highlights what I mean - food.
Current food production is heavily reliant on fossil fuel derived fertilizers. It’s commonly accepted that oil production will peak and eventually decline if it has not done so already. Some argue that it has, some say it is imminent. Nonetheless, eventually oil production will become exponentially more expensive as demand increases and supply shrinks and thus anything that relies on oil derived fuels or products will also become more costly. Global farming is reliant on oil derived fuels such as diesel and petroleum for the tilling, planting, fertilizing, spraying of insecticides and harvesting of crops. Not to mention transportation, processing, packaging and preparation. Natural gas, the most important input for the production of fertilizers is required during the Haber-Bosch process. Natural gas is also a finite fossil fuel subject to the same limitations as oil.
If we then look at the macro landscape we also learn that top soil, the soil that crops are grown in is being eroded by constant farming processes, poor land management and natural processes. It is estimated that at the current rate of erosion there could be no top soil left globally within 60 years. If I remember correctly, topsoil is being eroded approximately ten times faster than it can be replaced.
Now there are arguments to be made that we could reduce wastage, reduce demand and manage land better. Doing these things could buy extra time for a static or shrinking population.
Anyway, the point is that the global population rising means that there is more demand for food. Our ability to produce more food to satisfy the extra demand of a growing population is being reduced due to the factors I’ve mentioned above and these are only a subset of a far greater set of issues we face.
The idea that we can continue to grow the population further and that the planet can support this indefinitely is not reasonable. There are limits to growth in finite systems.
Population growth means that there are more people that both want and need a slice of the pie. The problem is there’s only a limited amount of pie available. We can slice that pie into ever smaller pieces and we can even redistribute the pie that exists more equitably. This will help keep people fed in the short term but not in the long term.
The problem is that the pie is going to shrink and the baker isn’t going to be able to get enough ingredients to make more. Eventually the pie will be gone.
In our analogy eventually there will be no pie to go around and everyone goes home hungry.
This means that we end up with a predicament without a solution that I am aware of.
It is far more likely that globally populations will continue to rise until we overshoot our constrained resources. Once that happens human population levels will drop, whether there is intervention or not.
What do you feel about overpopulation?
Which part specifically?
Any time you make a claim.
Can you prove where it exists? Can you show that it is somehow not political?
Can you show this?
Who accepts this, and why do they?
In a world with more and more countries placing bans on ICE vehicles and high-pollution power and heating generation, what proof do you have that demand will increase?
That depends on the fertilizer. Potash doesn’t care about natural gas, lots of sources of Phosphorus, potassium, and nitorgen don’t care about natural gas. What about hydroponics? It also doesn’t care about Natural gas.
Who estimates this? What is the rate of erosion?
See above
I am combining your questions with the statements they question for easier reading, I hope that’s okay!
So… this is a broad question and there are many ways to answer it. For good generalized reading, I’d check out United Nations Environment Programme and their 2012 report called A Review of Earth’s Carrying Capacity which have their own citations. The consensus of studies say the Earth’s capacity caps out at 8 billion or so with substantially fewer studies landing on either side.
Climate change is also affecting water availability worldwide and is also expected to get worse. In my province (in Canada) alone, there is expected to be water shortages this summer and they are already warning us well in advance to conserve.
Food? Yeah, maybe we could produce enough. All it would take would be a complete gargantuan shift in what people will be willing to eat (insect proteins) combined with massive shifts to sustainable farming, but it could be feasible. Another thing to consider is that food grown now has reduced vitamin and mineral content; as you probably know, food may not be enough. You need vitamins and minerals too, and if those reduce, you must eat more (or supplement, which is a sketchy science in and of itself) to compensate.
There is more on this topic if you like, but the top two should suffice to demonstrate that what I said is accurate.
The fact that oil is not infinite says this. It’s an odd question you ask because every single extraction or product peaks at some point. That’s just how things work. Peak Oil is commonly referenced, it’s only the WHEN that is theorized.
I believe that demand will not increase in for the public in relation to now, however demand will increase from certain industrial consumers because the supply will shrink and there is no alternative for them. All part of Peak Oil, but to quote Wikipedia which answers your question in the second paragraph…
Yes, there are other alternatives. I never stated there weren’t. They also aren’t used nearly as often. If we used crop rotation and greener alternatives (and had less people requiring fewer crops), we could easily stop a lot of the damage that nitrogen fertilizers do.
Maria-Helena Semedo of the Food and Agriculture Organization estimates this. Here is an article from the UN speaking about it.
The rate of erosion changes on average by ~1.4 t ha−1 yr−1 between countries as per this paper. As you’d expect, some countries (and areas within countries) are worse than others depending on practices.
Hopefully that answers everything! If you’d like to discuss in more detail, I’d love to carry on. I’m completely okay with being challenged on things.