APA
Han G., Cartwright S. R., Ganmanee M., Chan B. K. K., Adzis K. A. A., Hutchinson N., Wang J., Hui T. Y., Williams G. A. & Dong Y. (20190415). High thermal stress responses of Echinolittorina snails at their range edge predict population vulnerability to future warming. : The Science of the total environment.
Chicago
Han Guo-Dong, Cartwright Stephen R, Ganmanee Monthon, Chan Benny K K, Adzis Kee A A, Hutchinson Neil, Wang Jie, Hui Tommy Y, Williams Gray A and Dong Yun-Wei. 20190415. High thermal stress responses of Echinolittorina snails at their range edge predict population vulnerability to future warming. : The Science of the total environment.
Harvard
Han G., Cartwright S. R., Ganmanee M., Chan B. K. K., Adzis K. A. A., Hutchinson N., Wang J., Hui T. Y., Williams G. A. and Dong Y. (20190415). High thermal stress responses of Echinolittorina snails at their range edge predict population vulnerability to future warming. : The Science of the total environment.
MLA
Han Guo-Dong, Cartwright Stephen R, Ganmanee Monthon, Chan Benny K K, Adzis Kee A A, Hutchinson Neil, Wang Jie, Hui Tommy Y, Williams Gray A and Dong Yun-Wei. High thermal stress responses of Echinolittorina snails at their range edge predict population vulnerability to future warming. : The Science of the total environment. 20190415.