From the Imperial College of London , something buggy, though I have to wonder if other factors aren’t involved in the range expansion, like more sunlight getting through due to less aerosols/particulates thanks to pollution controls.
Light-colored butterflies and dragonflies thriving as European climate warms
Butterflies and dragonflies with lighter colours are out-competing darker-coloured insects in the face of climate change.
In a new study published in Nature Communications, scientists from Imperial College London, Philipps-University Marburg and University of Copenhagen have shown that as the climate warms across Europe, communities of butterflies and dragonflies consist of more lighter coloured species. Darker coloured species are retreating northwards to cooler areas, but lighter coloured species are also moving their geographical range north as Europe gets warmer.
For example, several Mediterranean dragonfly species have expanded their northern range and immigrated to Germany, such as the Southern Migrant Hawker (Aeshna affinis), the Scarlet Darter (Crocothemis erythraea) and the Dainty Damselfly (Coenagrion scitulum). In 2010, the Dainty Damselfly was also sighted in England for the first time in over 50 years. Butterfly species that thrive in warm climates, like the Southern Small White (Pieris mannii), have dispersed to Germany during the last ten years and are still continuing their northward shift.
As with lizards and snakes, the colour of an insect’s body plays a key role in how they absorb energy from the sun, and is crucial in fuelling their flight as well as regulating their body temperature.
Dark-coloured insects are able to absorb more sunlight than light-coloured insects, in order to increase their body temperature, and are more likely to be found in cooler climates. In contrast, insects in hotter climates need to protect themselves against overheating. Light-coloured insects are more likely to be found in hotter climates as they can reflect the light to prevent overheating their body and be active for longer periods of time.
Carsten Rahbek, from the Department of Life Sciences at Imperial College London said: “For two of the major groups of insects, we have now demonstrated a direct link between climate and insect colour, which impact their geographical distribution.”
“We now know that lighter-coloured butterflies and dragonflies are doing better in a warmer world, and we have also demonstrated that the effects of climate change on where species live are not something of the future, but that nature and its ecosystems are changing as we speak,” concluded Professor Rahbek, who is also Director of the Center for Macroecology, Evolution and Climate at the University of Copenhagen. To identify whether colour lightness was correlated to temperature, the scientists combined digital image analysis, which scanned and measured colour values of butterfly and dragonfly wings and bodies, with distributional data which mapped where in Europe the species are found.
They looked at 366 butterfly species and 107 dragonfly species across Europe, and showed a clear pattern of light-coloured insects dominating the warmer south of Europe and darker insects dominating the cooler north.
To test whether a warming climate had caused any shifts, they looked at changes in species distributions over an 18-year period from 1988-2006. Results showed that on average insects were becoming lighter in colour, and that darker-coloured insects were shifting towards the cooler areas in Western margins of Europe, the Alps and the Balkans.
Research has previously suggested that climate change is having an impact on the distribution of species, but this study provides evidence of a direct link and confirms basic assumptions about how changes in the climate can affect patterns of biodiversity.
Lead author Dirk Zeuss from Philipps-University Marburg in Germany said: “When studying biodiversity, we lack general rules about why certain species occur where they do. With this research we’ve been able to show that butterfly and dragonfly species across Europe are distributed according to their ability to regulate heat through their colour variation. Until now we could only watch the massive changes in the insect fauna during the last 20 years. Now we have an idea of what could be a strong cause of the changes.”
The paper:
Zeuss, D et al. 2014. ‘Global Warming favours light-coloured insects in Europe’. Nature Communications, 27 May 2014.
Under Strict Embargo – Tuesday 27 May 2014, 1600 BST / 1100 US Eastern Time
Once embargo has lifted, the paper can be downloaded at : http://dx.doi.org/10.1038/NCOMMS4874 Please note this is an uncorrected proof of the paper.
tttt,
the graphic you referenced showed “Global Temp” was 0.5 degrees elevation in past 30-40 years.
ut, the study referenced European temps over the past 18 years. The reality is the temps didn’t change much, in fact may have cooled an insignificant amount.
I guess the authors forgot to check the past 18 year temp record for Europe before ascribing their observations to “warming.”
Overall any freshman college student writing this article would get a failing grade for lack of documentation, lack of consideration of the many of other possible reasons for the observations, lack of statistical significance, etc……
One should not ascribe too much credibility to the “fuzzy math” calculations of “average temperatures” ….. or ….. the “percent” increase or decrease in “average temperatures”.
If one does then they are only deluding themselves into believing something that is not based in/on actual factual science.
The “results” of the above noted calculations are only worthwhile for use as “reference data” and should not, under any circumstances, be cited as proof or evidence of a scientific nature.
“Averages” are nothing more than abstract non-quantitative values that serve only to denote “a reference point in time”.
Bert Walker,
I obviously meant the graph showing European temp during the period and not global. And it has warmed during the period in Europe as you can see from the graph.