姓 名：孔祥仕

出生年月：1984.10

學 位：博士

職 稱：實驗師

學科專業：生态學、生态學

研究方向：微生物生态學，修複生态學

聯系方式：kongxiangshi@126.com

個人簡介

2009年畢業于黑龍江大學生命科學學院食品科學與工程專業，獲學士學位。2013年畢業于黑龍江大學生命科學學院生态學專業，獲得碩士學位。2018年畢業于南京大學生命科學學院生态學專業，獲得博士學位。張家界市生态環境保護環境應急專家。主要從事植物凋落物分解、碳氮循環、重金屬污染修複等研究，尤其在叢枝菌根真菌（AMF）介導的凋落物分解微生物機制、水生動物介導凋落物分解機制，濕地水生态修複機制和植物修複重金屬機制等領域有較深入研究。現主要研究AMF參與森林凋落物分解的微生物學機理。主持省級項目1項，參與國基自然科學基金多項，在Environmental Science and Pollution Research、Hydrobiologia、Plant and Soil等國内外刊物上發表學術論文30餘篇，其中以第一、第二作者發表SCI收錄論文8篇。

發表的主要論著如下：

Kong XS, Zhao YX, Tian K, He XB, Jia YY, He ZH, Wang WW, Xiang CG, Tian XJ. 2020. Insight into nitrogen and phosphorus enrichment on cadmium phytoextraction of hydroponically grownSalix matsudanaKoidz cuttings.Environmental Science and Pollution Research,27:8406–8417.

Kong XS, Tian K, Jia YY, e ZH, Song SY, He XB, Xiang CG, An SQ, Tian XJ. 2020. Ecological improvement by restoration on the Jialu River: water quality, species richness and distribution.Marine and Freshwater Research, 71(12) 1602-1615.

Kong XS, Wu WC, Tian K, Jia YY, Siddiq A, Lin H, Tian XJ. 2019. Promotive performance of shrimpNeocaridina denticulateonTypha angustifolialeaf litter decomposition.Hydrobiologia, 827: 75-87.

Kong XS, Jia YY, Song FQ, Tian K, Lin H, Bei ZL, Jia XQ, Yao B, Guo P, Tian XJ. 2018. Insight into litter decomposition driven by nutrient demands of symbiosis system through the hypha bridge of arbuscular mycorrhizal fungi.Environmental Science and Pollution Research, 25: 5369-5378.

Tian K,Kong XS, Gao JG, Jia YY, Lin H, He ZG, Ji YL, Bei ZL, Tian XJ. 2018. Local root status: a neglected bio-factor that regulates the home-field advantage of leaf litter decomposition.Plant and Soil, 431(1-2): 175-189.

Tian K,Kong XS, Yuan LH, Lin H, He ZH, Yao B, Ji YL, Yang JB, Sun SC, Tian XJ. 2019. Priming effect of litter mineralization: the role of root exudate depends on its interactions with litter quality and soil condition.Plant and Soil, 440, 457–471.

Jia YY,Kong XS, Weiser MD, Lv YN, Akbar S, Jia XQ, Tian K, He ZH, Lin H, Bei ZL, Tian XJ. 2015. Sodium limits litter decomposition rates in a subtropical forest: Additional tests of the sodium ecosystem respiration hypothesis.Applied Soil Ecology, 93: 98-104.

Song FQ,Kong XS.2012. Molecular process of arbuscular mycorrhizal associations and the symbiotic stabilizing mechanisms.African Journal of Microbiology Research, 6(5): 870-880.