My recently published research in Biodegradation (Springer Nature) explores how native Syrian microorganisms can effectively break down polycyclic aromatic hydrocarbons (PAHs) in crude oil-contaminated soil.
What we did:
We isolated 18 bacterial and fungal strains from contaminated Syrian soil and tested their ability to degrade 28 different PAH compounds.
Key findings:
Fungal consortia achieved up to 93.7% degradation
真菌群落的降解率最高可达93.7%
Bacterial consortia reached 90.7% efficiency
细菌群落的效率达到了90.7%。
· This is the first combined bacterial-fungal study for PAH bioremediation in Syria
这是叙利亚首个利用细菌和真菌联合方法进行多环芳烃生物修复的研究。
Why it matters: 重要性:
Using indigenous microbes offers an eco-friendly, cost-effective alternative to harsh chemical treatments. It supports food security and environmental health by restoring contaminated agricultural land.
利用本土微生物可以替代刺激性强的化学处理方法,是一种环保且经济高效的替代方案。它通过修复受污染的农田,保障粮食安全和环境健康。
Let's connect: 让我们联系吧:
I'm keen to collaborate with researchers in bioremediation, environmental microbiology, and soil restoration. Feel free to reach out for discussion or collaboration.
我非常乐意与生物修复、环境微生物学和土壤修复领域的研究人员合作。欢迎随时联系我进行讨论或洽谈合作。