Paper achievements
- Han WJ,.Effects of plant diversity on greenhouse gas emissions in microcosms simulating vertical constructed wetlands with high ammonium loading.Journal of environmental science
- Wenjuan Han.Removal of metals and their pools in plant in response to plant diversity in microcosms of floating constructed wetlands.Ecological Engineering.2018(113):65-73
- Plant species diversity reduces N2O but not CH4 emissions from constructed wetlands under high nitrogen levels.Environment Science Pollution Research.2017(24):1-11
- Effect of plant diversity on phosphorus removal in hydroponic microcosms simulating floating constructed wetlands.Ecological Engineering.2017(107):110-119
- Plant species diversity impacts nitrogen removal and nitrous oxide emissions as much as carbon addition in constructed wetland microcosms.Ecological Engineering.2016(93):144-151
- Positive effects of plant diversity on nitrogen removal in microcosms of constructed wetlands with high ammonium loading.Ecological Engineering.2015(82):614-623
- 地被物对油松幼苗早期更新的影响.林业科学.2014,50(1):49-54
- 黄龙山林区油松人工林林窗对幼苗根系生长及土壤理化性质的影响.林业科学.2013,49(11):16-23
- 不同坡向油松人工林建群种种群结构及群落特征分析.西北农林科技学报(自然科学版).2012,40(3):47-55
- 韩文娟, 袁晓青, 张文辉.油松人工林林窗对幼苗天然更新的影响.应用生态学报.2012,23(11):2490-2498
| |
MOBILE Version