The question is more complex than our resident negationists believe. It depends on several factors like resource availability, technology development, wealth distribution or the carrying capacity of ecosystems. World population is estimated to be 10 billion by 2050, while the productivity of farming land in many regions across the globe will be reduced as the climate crisis gets worse. Draw your own conclusions.
The new UN projections were released recently and they have revised downward slightly their projections to 9.7bn by 2050 and stabilizing at 10.8bn in 2100, but with steady decline after that.
The reality is that the UN has not captured the rapidity of fertility drops in Latin America, Africa, or east Asia. Nations with rapidly dropping fertility suddenly see huge slowdowns or even reversals in the fertility rate declines as soon as the UN projections start with all nations averaging toward 1.9 by 2100. But while we might be at 1.9 in 2100, we’re bound to go lower in between....rates are falling too quickly everywhere.
I wouldn’t be surprised to see the next projections down to 9.5bn in 2050 and 9.5bn in 2100 (with a peak in between)
I don't know what are you talking about, to be honest. The question is actually very complex and I proclaim my ignorance. Thankfully there are scientists and researchers that make papers
https://link.springer.com/article/10.1007/s11104-010-0328-z Feeding the world’s growing population is a serious challenge. Food insecurity is concentrated in developing nations, where drought and low soil fertility are primary constraints to food production. Many crops in developing countries are supported by weathered soils in which nutrient deficiencies and ion toxicities are common. Many systems have declining soil fertility due to inadequate use of fertility inputs, ongoing soil degradation, and increasingly intense resource use by burgeoning populations. Climate models predict that warmer temperatures and increases in the frequency and duration of drought during the 21st century will have net negative effects on agricultural productivity. The potential effects of climate change on soil fertility and the ability of crops to acquire and utilize soil nutrients is poorly understood, but is essential for understanding the future of global agriculture. This paper explores how rising temperature, drought and more intense precipitation events projected in climate change scenarios for the 21st century might affect soil fertility and the mineral nutrition of crops in developing countries. The effects of climate change on erosion rates, soil organic carbon losses, soil moisture, root growth and function, root-microbe associations and plant phenology as they relate to mineral nutrition are discussed. Our analysis suggests that the negative impacts of climate change on soil fertility and mineral nutrition of crops will far exceed beneficial effects, which would intensify food insecurity, particularly in developing countries.