The last month was recorded as the warmest June ever in many parts of the world. Last year, 2016, was the warmest year in the modern temperature record. Our planet is constantly heating up. This poses direct threats to humans, like extreme weather events and global sea-level rise, but scientists are concerned that it may also affect our well-being indirectly via changes in biodiversity. The variety of life, from plants and animals to microorganisms, is the basis of many services ecosystems provide to us, for example clean drinking water or food. Today, ecologists are challenged by the question: what does a warmer world mean for biodiversity? More species, less species, or no change?
The last month was recorded as the warmest June ever in many parts of the world. Last year, 2016, was the warmest year in the modern temperature record. Our planet is constantly heating up. This poses direct threats to humans, like extreme weather events and global sea-level rise, but scientists are concerned that it may also affect our well-being indirectly via changes in biodiversity. The variety of life, from plants and animals to microorganisms, is the basis of many services ecosystems provide to us, for example clean drinking water or food. Today, ecologists are challenged by the question: what does a warmer world mean for biodiversity? More species, less species, or no change?
A team of ecologists from the German Centre for Integrative Biodiversity Research (iDiv), Leipzig University, and the University of Minnesota found that climate warming can both increase and decrease biodiversity, and that the direction of the effect depends on how much biodiversity there is in the first place. In a long-running field experiment in Cedar Creek, Minnesota, the researchers established more than 30 different meadow plots, some with only one plant species (monocultures), and others with up to 16 different plant species. Then, they warmed the meadows with heating lamps to approximately 3°C above the ambient temperature. Subsequently, the researchers recorded how this affected nematodes, little worms that live in the soil in high abundance and of which many different species exist. Nematodes play important roles for several ecosystem functions, for example they help to make the soil fertile which is crucial for plant production.
When the researchers warmed the monoculture plots, the diversity of nematodes substantially declined. However, when they warmed the plots with a high number of different plant species, the number of nematode species increased. Dr Madhav P. Thakur, the lead author of the study and a postdoctoral researcher at the iDiv research centre and the Leipzig University, says: “The story is simple; you need biodiversity to conserve biodiversity in a warmer world”.
Read more at German Centre for Integrative Biodiversity Research (IDIV) Halle-Jena-Leipzig
Image: The meadow plots were part of the Long-Term Ecological Research Station in Cedar Creek, Minnesota, USA. The heating lamps placed above the meadows heated the meadow to approx. 3 degrees Celcius above the ambient temperature. (Credit: Jacob Miller)