¹Ù·Î°¡±â ¸Þ´º

¹Ù·Î°¡±â ¸Þ´º º»¹®³»¿ë ¹Ù·Î°¡±â ¸ÞÀθ޴º ¹Ù·Î°¡±â

ÁÖ¿ä¾È³»

HOME »çÀÌÆ®¸Ê

FONT SIZE

ÆùƮũ±â Å°¿ò 100% 110% 120% 130% 140% ÆùƮũ±â ÁÙÀÓ

¼ö¸ñ»ý¸®Çבּ¸½Ç

¸Þ´ºº¸±â
Á¦¸ñ
2020.07.14. ³í¹® ÃÊ·Ï
ÀÛ¼ºÀÏ
2020-07-15
Á¶È¸¼ö
151


1. Parsa, V. A., Salehi, E., Yavari, A. R., & van Bodegom, P. M. (2019). Analyzing temporal changes in urban forest structure and the effect on air quality improvement. Sustainable Cities and Society, 48, 101548.

2. Charney, N. D., Babst, F., Poulter, B., Record, S., Trouet, V. M., Frank, D., ... & Evans, M. E. (2016). Observed forest sensitivity to climate implies large changes in 21st century North American forest growth. Ecology letters, 19(9), 1119-1128.
 Ã·ºÎÆÄÀÏ:
Analyzing temporal changes in urban forest sturcture and the effect on air quality improvement.pdf (2.36MB)
Observed forest sensitivity to climate implies large changes in 21st century North American forest growth.pdf (1.37MB)
¸ñ·Ï »èÁ¦ ¼öÁ¤ ´ä±Û ±Û¾²±â
´ÙÀ½±Û
2020.07.20. ³í¹® ÃÊ·Ï
/ È«Á¤Çö
1. Dietrich, L., Zweifel, R., & Kahmen, A. (2018). Daily stem diameter variations can predict the canopy water status of mature temperate trees. Tree Physiology, 38(7), 941-952. 2.Farrior, C. E., Rodriguez-Iturbe, I., Dybzinski, R., Levin, S. A., & Pacala, S. W. (2015). Decreased water li..
ÀÌÀü±Û
2020.07.13. ³í¹® ÃÊ·Ï
/ È«Á¤Çö
1. Meineke, E. K., & Frank, S. D. (2018). Water availability drives urban tree growth responses to herbivory and warming. Journal of Applied Ecology, 55(4), 1701-1713. 2. Harvey, J. E., Smiljanić, M., Scharnweber, T., Buras, A., Cedro, A., Cruz‐García, R., ... & Klis..