Atıf Formatları
The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

E. Sulukan Et Al. , "The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris," SCIENCE OF THE TOTAL ENVIRONMENT , vol.808, 2022

Sulukan, E. Et Al. 2022. The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris. SCIENCE OF THE TOTAL ENVIRONMENT , vol.808 .

Sulukan, E., Baran, A., Şenol, O., Yildirim, S., Mavi, A., Ceyhun, H. A., ... Toraman, E.(2022). The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris. SCIENCE OF THE TOTAL ENVIRONMENT , vol.808.

Sulukan, Ekrem Et Al. "The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris," SCIENCE OF THE TOTAL ENVIRONMENT , vol.808, 2022

Sulukan, Ekrem Et Al. "The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris." SCIENCE OF THE TOTAL ENVIRONMENT , vol.808, 2022

Sulukan, E. Et Al. (2022) . "The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris." SCIENCE OF THE TOTAL ENVIRONMENT , vol.808.

@article{article, author={Ekrem SULUKAN Et Al. }, title={The synergic toxicity of temperature increases and nanopolystrene on zebrafish brain implies that global warming may worsen the current risk based on plastic debris}, journal={SCIENCE OF THE TOTAL ENVIRONMENT}, year=2022}