New study found that Eucalyptus trees, widely planted in Israel’s Western Negev, have a significant allelopathic effect, reducing herbaceous plant biomass and flowering density of red anemones, particularly in unshaded areas. These findings suggest that while Eucalyptus trees provide certain benefits such as shading for tourists and nectar for bees, their negative impact on local plant communities and ecosystem services necessitates cautious planting, particularly in tourist areas and regions with rare species. The Eucalyptus species showed large differences in their effect, thus, prioritizing Eucalyptus species with minimal adverse effects is recommended for future reforestation efforts.
The study was conducted in the spring of 2023 in the Be’eri forest and near Kibbutz Re’im to investigate the impact of Eucalyptus trees on herbaceous plant communities. Tragically, mere months after this research, the Hamas launched an attack on Israel and the region was struck by devastating events. Our thoughts are with all those affected, both physically and mentally. We remain hopeful for the restoration of this region, known for its stunning natural beauty, and aspire that our findings will contribute to these restoration efforts.
The Western Negev region of Israel, characterized by its extensive Eucalyptus plantations, has been the subject of ongoing debate due to Eucalypti being an alien species. Eucalyptus is famous for allelopathy - the chemical inhibition of one plant species by another - which can significantly impact local vegetation. This study, conducted in the Be’eri forest and near Kibbutz Re’im, focused on understanding these effects on herbaceous plant communities that are crucial for ecosystem services, such as grazing and cultural significance.
New study by Yuval Neumann and Dr. Niv DeMalach from the Faculty of Agriculture, Food and Environment at the Hebrew University examined the impact of three Eucalyptus species: E. camaldulensis, E. loxophleba, and E. torquata. Key findings include:
Herbaceous Biomass Reduction Under the Eucalypti canopy a significant reduction in herbaceous biomass was observed, even when controlling for shading.
Flowering Density of Red Anemones: A negative impact on the flowering density of red anemones (A. coronaria) was observed.
Ecosystem Services: Eucalypti provide numerous ecosystem service, such as s security-forestation (hiding settlements), as nectar providers, or shade providers. Their potential negative impact on ecosystem services is through reducing the flowering density of red anemones, which in turn are an economical ecosystem service as they attract tourism.
Differences between the species: The study found major differences in the three Eucalyptus species’ effect on herbaceous communities, with E. torquata having a negative effect on biodiversity (of up to ~90% reduction), while the other two species did not show an effect.
Given the findings, the researchers advise caution in planting certain Eucalyptus species’ trees in areas intended for tourism, such as the 'Darom Adom' (red south) festival, and in regions home to rare or protected species. Significant differences between Eucalyptus species were noted, with some species exhibiting minor negative effects. Therefore, the researchers recommend prioritizing species with minimal impact for reforestation efforts.
This study underscores the need for careful consideration of the ecological impacts of Eucalyptus plantations in the Western Negev. While these trees offer certain benefits, their allelopathic properties can negatively influence local plant communities and ecosystem services. Reforestation efforts should be led by data-driven decision-making, and supported by further research, to deepen our understanding.
The research paper titled “The effects of Eucalyptus on herbaceous plant communities in the Western Negev” is now available in Hebrew at Ecology and Environment (ekologia ve seviva) and can be accessed at https://magazine.isees.org.il/?p=57779
Researchers:
Yuval Neumann and Niv DeMalach
Institution: The Robert H Smith Faculty of Agriculture, Food and Environment, The Hebrew University in Jerusalem (Israel)
Pictures: Credit: Yuval Neumann
Anemones in the Be’eri Forest in Southern Israel.
Anemone Against a Winter Flow in Be’eri Forest in Southern Israel
The research site near Reim Junction
The Hebrew University of Jerusalem is Israel's premier academic and research institution. Serving over 23,000 students from 80 countries, the University produces nearly 40% of Israel’s civilian scientific research and has received over 11,000 patents. Faculty and alumni of the Hebrew University have won eight Nobel Prizes and a Fields Medal. For more information about the Hebrew University, please visit http://new.huji.ac.il/en.