Warmer temperatures would lengthen the growing season; as a result the trees that survive will grow taller. Increased temperature would result in a different humidity and probably more rain. That, in turn, could lead to more leaching, more run-off, more erosion, etc. The permafrost will melt and since the land is flat; bogs and shallow lakes would form. Some of the more fragile plants and animals would die. So only the durable plants, trees, and animals would live through the change in temperature.
That looks ok to me but you should have put it in your own words. I just wrote that material in a quick but dirty fashion. It wasn't meant for direct copy.
I know I'm just using it to think of some stuff on my paper. Because we are suppose to brainstorm and stuff. Its not my final draft.
It seems like you have described some potential effects of warmer temperatures on ecosystems. The statement suggests that increased temperatures can lead to a longer growing season, which can result in taller tree growth. Additionally, higher temperatures may alter humidity levels and increase rainfall. This, in turn, could lead to more leaching (the process of minerals being washed out of the soil), increased run-off (water flowing over the land's surface), and more erosion (the removal of soil and rock).
The reference to permafrost melting indicates that in regions where the ground is permanently frozen, warmer temperatures can cause it to thaw. This thawing would result in the formation of bogs (waterlogged areas covered with peat) and shallow lakes. The melting of permafrost and the subsequent changes in water availability could potentially negatively impact more delicate plant and animal species, causing some to die out. However, it suggests that only the more resilient plants, trees, and animals would be able to adapt to the changing temperature conditions and survive.
Understanding the potential effects of climate change on ecosystems requires knowledge in the field of ecology, specifically how organisms interact with their environment and how they are affected by changes in temperature and precipitation. Scientists study these relationships by conducting observations, experiments, and computer modeling to predict the impact of climate change on ecosystems.