TRACKING THE TRENDS AND DISTRIBUTION OF BUTTERFLIES AND MOTHS IN NORTHERN EUROPE

Tracking the Trends and Distribution of Butterflies and Moths in Northern Europe

OVERVIEW

This project conducted by Markus delves into the population dynamics and distribution patterns of butterflies and moths across Northern Europe, examining how climate change and land use changes influence these patterns. Spanning 16 years, this study tracks range-expanding species to shed light on their responses to environmental shifts.

key findings

Key Findings

  • Increasing Species Richness and Abundance: We observed a significant rise in the species richness and abundance of range-expanding moths in southeastern Sweden. Over the study period, we recorded over 25,000 individuals from 107 species, with a notable trend of species migrating northward.

  • Temperature’s Crucial Role: Our data show a strong correlation between higher ambient temperatures and increased abundance and population growth. Warmer years have notably facilitated the survival and reproduction of thermophilic species, underscoring temperature as a key driver in range expansions.

  • Trends in Population Growth: Newly established moth populations showed rapid initial growth, which gradually stabilized. This trend suggests an early phase of rapid colonization followed by a period of adjustment as species adapt to local ecosystems.

  • Disturbance and Novel Ecosystems: Changes in land use and climate variability have created new habitats, supporting a diverse array of species. Our findings highlight that younger forests and disturbed areas can be biodiversity hotspots, challenging the traditional focus on old-growth forests.

Ecological Implications

Intermediate Disturbance Hypothesis

Our study supports the hypothesis that moderate disturbances enhance biodiversity by creating varied habitats. Ecosystems with moderate levels of disturbance tend to harbour greater species diversity.

Emergence of Novel Ecosystems

Range-expanding species are contributing to the formation of novel ecosystems. These new ecosystems, influenced by human activities and climate change, function differently from historical ones but play vital roles in maintaining biodiversity.

Tailored Conservation Strategies

Different taxonomic groups respond uniquely to environmental changes, emphasizing the need for conservation strategies tailored to the specific needs of various species.

conservation and management implications

conservation and management implications

The research advocates for dynamic conservation approaches that consider both young and old forests, disturbances, and the emergence of novel ecosystems. Effective biodiversity preservation requires continuous monitoring and adaptive management to respond to rapid environmental changes

Project Significance

 

The research advocates for dynamic conservation approaches that consider both young and old forests, disturbances, and the emergence of novel ecosystems. Effective biodiversity preservation requires continuous monitoring and adaptive management to respond to rapid environmental changes

Project Significance

 

The research advocates for dynamic conservation approaches that consider both young and old forests, disturbances, and the emergence of novel ecosystems. Effective biodiversity preservation requires continuous monitoring and adaptive management to respond to rapid environmental changes

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