Temperate insects as vulnerable to climate change as tropical species

Date: June 8, 2020 Source: Uppsala University Summary: In previous research, it has been assumed that insects in temperate regions would cope well with or even benefit from a warmer climate. Not so, according to researchers. The earlier models failed to take into account the fact that insects in temperate habitats are inactive for much of the year. Share: FULL STORY

---

In previous research, it has been assumed that insects in temperate regions would cope well with or even benefit from a warmer climate. Not so, according to researchers from the Universities of Uppsala and Lund in Sweden and Oviedo, Spain, in a new study. The earlier models failed to take into account the fact that insects in temperate habitats are inactive for much of the year.

The research group’s study, published in the journal Scientific Reports, presents new knowledge about the potential effects of global warming on insect populations. The results show that insects may be more threatened by climate change than previous estimates have indicated.

“Insects in temperate zones might be as threatened by climate change as those in the tropics,” says Uppsala University professor Frank Johansson.

The researchers found new, disturbing patterns in a modified analysis of a previously used dataset on insects’ critical temperature limits and their survival. Their conclusion is that temperate insects might be just as sensitive to climate change as tropical ones. The previous studies showed that tropical insects are severely threatened by climate change since they already live very close to their optimal temperature and “critical thermal maximum.” However, the scientists responsible for those previous studies also assumed that temperate insects live far below their own optimal and maximum temperatures, and might therefore benefit from climate change.

The problem is that the earlier studies used mean annual temperatures for all their estimates. In so doing, they failed to consider that the vast majority of insects in temperate latitudes remain inactive in cold periods — that is, for much of the year.

When more biological details about the various insect species, and only the months in which the species are active, are entered in the models, the new estimates show that in temperate insects’ habitats, too, the temperatures are close to the insects’ optimal and critical maximum. This is because the average temperature for the months when the insects are active clearly exceeds the mean year-round temperature. Temperate insects are thus as vulnerable as tropical species to temperature increases

When the temperature is close to insects’ optimal temperature or critical upper limit, there is a great risk of their numbers declining. The decreases in insect populations would also affect humans, since many insect species provide ecosystem services, such as pollination of fruit, vegetables and other plants we eat.

---

Story Source:

Materials provided by Uppsala University. Original written by Linda Koffmar. Note: Content may be edited for style and length.

---

Journal Reference:

1. Frank Johansson, Germán Orizaola, Viktor Nilsson-Örtman. Temperate insects with narrow seasonal activity periods can be as vulnerable to climate change as tropical insect  species. Scientific Reports, 2020; 10 (1) DOI: 10.1038/s41598-020-65608-7

---

RELATED STORIES

---

Climate Change Increasing Risks of Lightning-Ignited Fires

May 31, 2018 — Fires ignited by lightning have and will likely continue to increase across the Mediterranean and temperate regions in the Southern Hemisphere under a warmer climate, according to a new study co-led …

Off Track: How Storms Will Veer in a Warmer World

Nov. 15, 2017 — The dry, semi-arid regions are expanding into higher latitudes, and temperate, rainy regions are migrating poleward. In a new paper, researchers provide new insight into this phenomenon by …

How Temperature Guides Where Species Live, Where They’ll Go

Feb. 15, 2017 — A new study could prove significant in answering among the most enduring questions for ecologists: Why do species live where they do, and what are the factors that keep them there? The ranges of …

Synchronized Leaf Aging in the Amazon Responsible for Seasonal Increases in Photosynthesis

Feb. 25, 2016 — High-tech photography in the Amazon reveals that young leaves grow in at the same times as older ones perish, in strong contrast to temperate forests in North America or Europe, resulting in seasonal … FROM AROUND THE WEB

---

Below are relevant articles that may interest you. ScienceDaily shares links with scholarly publications in the TrendMD network and earns revenue from third-party advertisers, where indicated.

1. Effects of climate change and grazing pressure on shrub communities of West Asian rangelands Mounir Louhaichi et al., International Journal of Climate Change Strategies and Management, 2019
2. Climate change and food security in EAC region: a panel data analysis Walaa Mahrous, Review of Economics and Political Science, 2019
3. Climate change implications for water resource management in Caribbean tourism Kwame Emmanuel et al., Worldwide Hospitality and Tourism Themes, 2009
4. The Earth Only Endures – On Reconnecting with Nature and Our Place in It International Journal of Climate Change Strategies and Management, 2009

1. Effects of a changing climate on livelihoods of forest dependent communities Faith Nyangute Saalu et al., International Journal of Climate Change Strategies and Management, 2020
2. Human competences that facilitate adaptation to climate change: a research in progress Jackie Kerry et al., International Journal of Climate Change Strategies and Management, 2012
3. Biodiversity and climate change in Kuwait Samira Omar Asem et al., International Journal of Climate Change Strategies and Management, 2010
4. Climate change in the Middle East and North Africa (MENA) region and implications for water resources project planning and management Saleh A. Wasimi, International Journal of Climate Change Strategies and Management, 2010