University of Göttingen Research Links Nitrogen Pollution to Westward Movement of Forest Plants
The movement of plant species across Europe has mainly been attributed to climate change. However, a new study shows that other environmental factors play an important role. An international research team led by the University of Ghent, with the participation of the University of Göttingen, examined the biodiversity of forests in relation to climate change and the input of nitrogen and sulphur. The study found that many European forest plant species are moving in a westerly direction, and that movement in this direction is more common than towards the north. The researchers suggest that this is due to excessive amounts of atmospheric nitrogen input, and in fact, this could be described as “nitrogen pollution”. At the same time, nitrogen is also an important nutrient factor for plant growth. The results were published in the journal Science.
The research investigated the range of shifts of 266 forest plants within Europe over many decades. It showed that 39 per cent of plant species were shifting westwards, while only 15 per cent were shifting northwards. The researchers identified a corresponding change in air pollution, which is associated with increased nitrogen levels, as the driver of these movements. In addition, both nitrogen and sulphur can lead to soil acidification. Low-competitive plant species from nutrient poor sites were replaced by plant species that only become competitive when there is a high nutrient supply.
Researchers at the University of Göttingen contributed to the research by providing important data. “Our study, part of the international database ForestReplot, now contains 11 data sets with more than 1000 plots collected from our experiments, research projects and student research projects,” reports Professor Wolfgang Schmidt from the Faculty of Forest Sciences and Forest Ecology. “Our surveys are a real resource for the future: there are initial surveys dating from the period 1955 to 1970, right up to our most recent resurveys, which were conducted between 2009 and 2023.” Regarding the results, he says: “In times of climate change, other environmental changes are often neglected, but it is important to see the full picture and understand that ecosystems such as forests often react in complex ways.”
The study makes it clear that future patterns of biodiversity will be determined by interactions between various environmental changes. Understanding these complex interactions is crucial to protecting biological diversity and the functioning of ecosystems.