[1] Lin H, Tu CY, Fang JY, Beniamino G, Benjamin L, Carsten G, . . .John G.2020. Forests buffer thermal fluctuation better than non-forests. Agricultural and Forest Meteorology. (Accepted)

[2] Lin H, Zhang H.L.*, Song Q.H. 2018. Transition from abstract thermodynamic concepts to perceivable ecological indicators. Ecological Indicators. 88:37-42. （IF=3.898）

[3] Lin H *, Chen Y.J., Song Q.H., et al. 2017. Quantifying deforestation and forest degradation with thermal response. Science of the Total Environment. 607-608: 1286-1292. （IF=4.9, top10）

[4] Lin H.*, Chen Y.J., Zhang H.L., Fu P.L., Fan Z.X., 2017. Stronger cooling effects of transpiration and leaf physical traits of the plants from a hot dry habitat than from a hot wet habitat. Functional Ecology. 2017, 31, 2202-2211. （IF=5.63, top10）

[5] Lin H.*, Fan Z.X., Shi L.L., Arain A., McCaughey H., Billesbach D., Siqueira M., Bracho R., Oechel W. The cooling trend of canopy temperature during the Maturation, succession, and recovery of ecosystems. Ecosystems, 2017, 20: 406-415.（IF=4.198）

[6] Lin H., Fan X.L., Zhou X. and Gao J.Y.* Self-interference is reduced in a secondary pollen presentation species, Duperrea pavettifolia (Rubiaceae). Flora, 2012, 207: 895-902.（IF=1.125）

[7] Lin H., Gao J.Y.*, Zhou X., Fan X.L. Microsatellite markers for Duperrea pavettifolia (Rubiaceae). American Journal of Botany, 2012, 99: e310-e312.（IF=3.05）

[8] Lin H., Cao M.*, Zhang Y.P. Self-organization of tropical seasonal rain forest in southwest China. Ecological Modelling, 2011, 222: 2812-2816.（IF=2.363）

[9] Lin H., Cao M.*, Paul C. S., Zhang Y.P. Assessing self-organization of plant communities – A thermodynamic approach. Ecological Modelling, 2009, 220: 784-790.（IF=2.363）

[10] Lin H., Cao M.* Plant energy storage strategy and caloric value. Ecological Modelling, 2008, 217: 132-138.（IF=2.363）

[11] Wang B., Segar S. T., Deng G. Z., Luo T.X., Lin H., Peng Y.Q.*, 2018. Variation in trophic cascade strength is triggered by top–down process in an ant–wasp‐fig system. OIKOS. 2：185-195 （IF=3.444）

[12] Taha Rajeh, Ping Tu, Hua Lin and Houlei Zhang*, 2018. Thermo-fluid characteristics of high temperature molten salt flowing in single-leaf type hollow paddles. Entropy. 20 (8), 581 （IF=2.305）

[13] Hui Huang, Xiaomeng Zi, Hua Lin, Qiang Liu, 2018. Host-specificity of symbiotic mycorrhizal fungi for enhancing seed germination, protocorm formation and seedling development of over-collected medicinal orchid, Dendrobium devonianum. The Journal of Microbiology. 56(1):42-48. （IF=1.576）

[14] Chen YJ, Schnitzer S, Zhang YJ, Fan, ZX, Goldstein G; Tomlinson, Lin H, Zhang JL*,  Cao  KF*  (2017)  Physiological  regulation  and  efficient  xylem  water  transport regulate  diurnal  water  and  carbon  balances  of  tropical lianas. Functional Ecology, 31, 306-317（IF=5.63，TOP 10）

[15] Chen Y.J.*, Frans B., Kyle T., Fan Z.X., Lin H., Zhang S.B., Zheng Y.L., Li Y.P., Cao K.F.(*), Zhang J.L. Time lags between crown and basal sap flows in tropical lianas and co-occurring trees. Tree Physiology, 2016, 36: 736-747. （IF=3.586）

[16] Stoy P.C.*, Lin H., Novick, K.A.，Siqueira M.B.S.，Juang J.Y. The role of vegetation on the ecosystem radiative entropy budget and trends along ecological succession. Entropy, 2014, 16: 3710-3731.（IF=1.821）

[17] Song Q.H., Lin H., Zhang Y.P.*, Tan Z.H., Zhao J. F.,  Zhao J.B.,  Zhang X., Zhou W.J.,  Yu L.,  Yang L.Y.,  Yu G.R.,  Sun X.M. The effect of drought stress on self-organisation in a seasonal tropical rainforest. Ecological Modelling, 2013, 265:136-139.（IF=2.363）

[18] Fan X.L., Barrett S.C., Lin H., Chen L.L., Zhou X., Gao J.Y.* Rain pollination provides reproductive assurance in a deceptive orchid. Annals of Botany, 2012, 110: 953-958.（IF=4.041）

[19] Zhou X., Lin H., Fan X.L., Gao J.Y.* Autonomous self-pollination and insect visitation in a saprophytic orchid, Epipogium roseum (D.Don) Lindl. Australian Journal of Botany, 2012, 60: 154-159.（IF=0.793）

[20] Lin H., Cao M., Zhang J.H. Calorific values and energy allocation of a tropical seasonal rain forest and a montane evergreen broad-leaved forest in southwest China. Journal of plant ecology. 2007, 31: 1103-1110.

[21] 林华，曹敏*, 2006. 森林生态系统发展和植物种群变化的热力学过程初探. 生态学报. 26: 4250-4256.

[22] 唐延林，曹敏*，唐建维，邓晓保，林华，李玉武，邓云，2010. 西双版纳热带季节雨林优势植物热值. 3: 427-433.

[23] 乔秀娟，曹敏*，林华, 2007. 西双版纳不同林龄次生植物群落优势树种的热值. 植物生态学报. 31:326-332.

[24] 赵祖铨，周莹莹，林华，张后雷，2019. 采用末级流道侧壁渗透的线-面流动耗功优化.能源研究与利用, 5: 42- 46.

出版专著:

Hua LIN. 2014. Changes in atmospheric carbon dioxide. In: Global Environmental change. Bill Freedman edt. SpringerReference.com. Online ISBN 978-94-007-5784-4. Print ISBN 978-94-007-5783-7

专利：

[1] 盛春玲，高江云，林华，范旭丽.《一种获得兜唇石斛种子萌发有效共生真菌的方法》，授权号：ZL 2012 1 0097505.5. 授权日期：2013.8.21

[2] 盛春玲，高江云，林华，范旭丽.《一种获得硬叶兰种子萌发有效共生真菌的方法》，授权号：ZL 2012 1 0097484.7. 授权日期：2013.4.10

[3] 高江云，邵士成，字肖萌，林华，刘强. 《一种促进齿瓣石斛种子萌发形成幼苗的菌株及其应用》， ZL201510078367.X. 授权日期：2017.10.13