[1] |
闫丽珍, 石敏俊, 王磊. 太湖流域农业面源污染及控制研究进展[J]. 中国人口·资源与环境, 2010, 20(1): 103 − 111.
YAN Lizhen, SHI Minjun, WANG Lei. Research progress of agricultural non-point source pollution and control in Taihu Lake Basin [J]. China Popul Resour Environ, 2010, 20(1): 103 − 111. |
[2] |
司友斌, 王慎强, 陈怀满. 农田氮、磷的流失与水体富营养化[J]. 土壤, 2000, 32(4): 188 − 193.
SI Youbin, WANG Shenqiang, CHEN Huaiman. Loss of nitrogen and phosphorus in farmland and eutrophication of water [J]. Soil, 2000, 32(4): 188 − 193. |
[3] |
王华, 陈华鑫, 徐兆安, 等. 2010−2017年太湖总磷浓度变化趋势分析及成因探讨[J]. 湖泊科学, 2019, 31(4): 919 − 929.
WANG Hua, CHEN Huaxin, XU Zhaoan, et al. Trend analysis of total phosphorus concentration in Taihu Lake from 2010 to 2017 and discussion on its causes [J]. Lake Sci, 2019, 31(4): 919 − 929. |
[4] |
HOFFMANN C C, KJAERGAARD C, UUSI-KÄMPPÄ J, et al. Phosphorus retention in riparian buffers: review of their efficiency [J]. J Environ Qual, 2009, 38(5): 1942 − 1955. |
[5] |
MARC D, RICHARD H. Reduction in agricultural non-point source pollution in the first year following establishment of an integrated grass/tree filter strip system in southern Quebec (Canada) [J]. Agric Ecosyst Environ, 2009, 131(1): 85 − 97. |
[6] |
MESSER T L, BURCHELL M R I, GRABOW G L, et al. Groundwater nitrate reductions within upstream and downstream sections of a riparian buffer [J]. Ecol Eng, 2012, 47(5): 297 − 307. |
[7] |
吴永波. 河岸植被缓冲带减缓农业面源污染研究进展[J]. 南京林业大学学报(自然科学版), 2015, 39(3): 143 − 148.
WU Yongbo. Research progress on the riparian vegetation buffer strip functions on agricultural nonpoint source pollution reduction [J]. J Nanjing For Univ Nat Sci Ed, 2015, 39(3): 143 − 148. |
[8] |
RICHARDSON J S, NAIMAN R J, BISSON P A. How did fixed-width buffers become standard practice for protecting freshwaters and their riparian areas from forest harvest practices? [J]. Freshwater Sci, 2012, 31(1): 232 − 238. |
[9] |
VIRGÓS E. Relative value of riparian woodlands in landscapes with different forest cover for medium-sized Iberian carnivores [J]. Biodiversity Conserv, 2001, 10(7): 1039 − 1049. |
[10] |
张广分. 潮白河上游河岸植被缓冲带对氮、磷去除效果研究[J]. 中国农学通报, 2013, 29(8): 189 − 194.
ZHANG Guangfen. The effects of riparian vegetation buffer zones on nitrogen and phosphorus reduction in Chaobai River upstream [J]. Chin Agric Sci Bull, 2013, 29(8): 189 − 194. |
[11] |
李萍萍, 崔波, 付为国, 等. 河岸带不同植被类型及宽度对污染物去除效果的影响[J]. 南京林业大学学报(自然科学版), 2013, 37(6): 47 − 52.
LI Pingping, CUI Bo, FU Weiguo, et al. Effects of riparian buffer vegetation types and width on pollutant removal [J]. J Nanjing For Univ Nat Sci Ed, 2013, 37(6): 47 − 52. |
[12] |
朱晓成, 吴永波, 余昱莹, 等. 太湖乔木林河岸植被缓冲带截留氮素效率[J]. 浙江农林大学学报, 2019, 36(3): 565 − 572.
ZHU Xiaocheng,WU Yongbo,YU Yuying, et al. Removing nitrogen with trees planted in the riparian vegetation buffer strips of Taihu Lake [J]. J Zhejiang A&F Univ, 2019, 36(3): 565 − 572. |
[13] |
王珊珊, 张帅, 王诗乐, 等. 河岸带乔木树种配置方式对面源污染物 ${\rm{NH}}_4^{+} $ ![]() 的去除效果[J]. 森林工程, 2014, 30(4): 27 − 30.
WANG Shanshan, ZHANG Shuai, WANG Shile, et al. Effects of nitrogen removal for non-point source pollution by riparian arbor plant arrangement [J]. For Engineering, 2014, 30(4): 27 − 30. |
[14] |
朱颖, 吴永波, 李文霞, 等. 河岸人工林缓冲带截留磷素能力及适宜宽度[J]. 东北林业大学学报, 2016, 44(12): 31 − 36.
ZHU Ying, WU Yongbo, LI Wenxia, et al. Phosphorus retention capacities and fitting width of different riparian plantation buffer strips [J]. J Northeast For Univ, 2016, 44(12): 31 − 36. |
[15] |
雷立改, 马晓珍, 魏福祥, 等. 水中总氮、总磷测定方法的研究进展[J]. 河北工业科技, 2011, 28(1): 72 − 76.
LEI Ligai, MA Xiaozhen, WEI Fuxiang, et al. Research progress of determination of total nitrogen and total phosphorus in seawater [J]. Hebei J Ind Sci Technol, 2011, 28(1): 72 − 76. |
[16] |
高励珍, 郝茜, 张术杰. 分光光度法测定氯化稀土, 碳酸轻稀土中磷酸根量[J]. 稀土, 2016, 37(1): 116 − 120.
GAO Lizhen, HAO Qian, ZHANG Shujie. Determination of phosphorus radicle content in rare earth chloride and light rare earth carbonate by phosphorus-antimonate-molybdenum blue spectrophotometric [J]. Chin Rare Earths, 2016, 37(1): 116 − 120. |
[17] |
饶良懿, 崔建国. 河岸植被缓冲带生态水文功能研究进展[J]. 中国水土保持科学, 2008, 6(4): 121 − 128.
RAO Liangyi, CUI Jianguo. Research advances on the eco-hydrological functions of riparian buffer [J]. Sci Soil Water Conserv, 2008, 6(4): 121 − 128. |
[18] |
赵警卫, 胡彬. 河岸带植被对非点源氮、磷以及悬浮颗粒物的截留效应[J]. 水土保持通报, 2012, 32(4): 51 − 55.
ZHAO Jingwei, HU Bin. Interception of non-point source N and P and suspended solid matter by riparian vegetation [J]. Bull Soil Water Conserv, 2012, 32(4): 51 − 55. |
[19] |
LEF K H, ISENHART T M, SCHULTZ R C, et al. Multispecies riparian buffers trap sediment and nutrients during rainfall simulations [J]. J Environ Qual, 2000, 29(4): 1200 − 1205. |
[20] |
DORIOZ J M, WANG D, POULENARD J, et al. The effect of grass buffer strips on phosphorus dynamics-a critical review and synthesis as a basis for application in agricultural landscapes in France [J]. Agric Ecosyst Environ, 2007, 117(1): 4 − 21. |
[21] |
何聪, 刘璐嘉, 王苏胜, 等. 不同宽度草皮缓冲带对农田径流氮磷去除效果研究[J]. 水土保持研究, 2014, 21(4): 55 − 58.
HE Cong, LIU Lujia, WANG Susheng, et al. Study on efficiency of sward buffer strips with different structures on removal of nitrogen and phosphorus in farmland runoff [J]. Res Soil Water Conserv, 2014, 21(4): 55 − 58. |
[22] |
WANYAMA J, KRISTOFF H, ISABIRYE M, et al. Evaluation of runoff and sediment trapping effectiveness of vegetative filter strips in the riparian zone of Lake Victoria [J]. Geophysic Res Abstr, 2011, 13: 48 − 63. |
[23] |
SCHMITT T J, DOSSKEY M G, HOAGLAND K D. Filter strip performance and processes for different vegetation, widths, and contaminants [J]. J Environ Qual, 1999, 28(5): 1479 − 1489. |
[24] |
MANKIN K R, NGANDU D M, BARDEN C J, et al. Grass-shrub riparian buffer removal of sediment, phosphorus, and nitrogen from simulated runoff 1 [J]. J Am Water Resour Assoc, 2007, 43(5): 1108 − 1116. |
[25] |
ALLAIRE S E, SYLVAIN C, LANGE S F, et al. Potential efficiency of riparian vegetated buffer strips in intercepting soluble compounds in the presence of subsurface preferential flows [J]. PLoS One, 2015, 10(7): e0131840. |
[26] |
CASTELLE A J, JOHNSON A W, CONOLLY C. Wetland and stream buffer size requirements: a review [J]. J Environ Qual, 1994, 23(5): 878 − 882. |
[27] |
阎丽凤. 河岸缓冲带对氮、磷污染物的去除效果研究[D]. 阜新: 辽宁工程技术大学, 2011.
YAN Lifeng. The Effects of Riparian and Phosphorus Reduction on Riparian Buffer Zone[D]. Fuxin: Liaoning Technology University, 2011. |
[28] |
SWEENEY A W, NEWBOLD J D. Streamside forest buffer width needed to protect stream water quality, habitat, and organisms: a literature review [J]. J Am Water Resour Assoc, 2014, 50(3): 560 − 584. |
[29] |
钱进, 王超, 王沛芳, 等. 河湖滨岸缓冲带净污机理及适宜宽度研究进展[J]. 水科学进展, 2009, 20(1): 141 − 146.
QIAN Jin, WANG Chao, WANG Peifang, et al. Research progresses in purification mechanism and fitting width of riparian buffer strip [J]. Adv Water Sci, 2009, 20(1): 141 − 146. |
[30] |
UUSI-KÄMPPÄ J. Phosphorus purification in buffer zones in cold climates [J]. Ecol Eng, 2005, 24(5): 491 − 502. |
[31] |
DANIELS R B, GILLIAM J W. Sediment and chemical load reduction by grass and riparian filters [J]. Soil Sci Soc Am J, 1996, 60(1): 246 − 251. |
[32] |
BARLING R D, MOORE I D. Role of buffer strips in management of waterway pollution: a review [J]. Environ Manage, 1994, 18(4): 543 − 558. |
[33] |
YONG R A, HUNTRODS T, ANDERSON W. Effectiveness of vegetated buffer strips in controlling pollution from feedlot runoff [J]. J Environ Qual, 1980(9): 483 − 487. |
[34] |
JIN C X, RÖMKENS M J M, GRIFFIOEN F. Estimation manning's roughness coefficient for shallow overland flow in non-submerged vegetative filter strips [J]. Trans ASAE, 2000, 43(6): 1459 − 1466. |
[35] |
宋思铭. 河岸缓冲带净水效果及优化配置技术研究[D]. 北京: 北京林业大学, 2012.
SONG Siming. Research on Water Purification Effect and Optimizing Allocation Technology of Riparian Buffer Strips[D]. Beijing: Beijing Forestry University, 2012. |
[36] |
MANDER U, KUUSEMETS V, LOHMUS K. Efficiency and dimensioning of riparian buffer zones in agricultural catchments [J]. Ecol Eng, 1997, 8(4): 299 − 324. |
[37] |
郭蔚华, 徐灵华, 王柱. 桃花溪河岸生态建设中植物配置与面源氮磷削减[J]. 科技导报, 2010, 28(7): 50 − 54.
GUO Weihua, XU Linghua, WANG Zhu. The relationship between the plant disposition and the reduction of nitrogen and phosphorus in the riparian ecological construction of Taohua River in Chongqing [J]. Sci Technol Rev, 2010, 28(7): 50 − 54. |
[38] |
FORTIER J, GAGNON D, TRUAX B, et al. Biomass and volume yield after 6 years in multiclonal hybrid poplar riparian buffer strips [J]. Biomass Bioenergy, 2010, 34(7): 1028 − 1040. |
[39] |
王超, 尹炜, 贾海燕, 等. 滨岸带对河流生态系统的影响机制研究进展[J]. 生态科学, 2018, 37(3): 222 − 232.
WANG Chao, YIN Wei, JIA Haiyan, et al. Review on the influence mechanism of riparian zone to the river ecosystem [J]. Ecol Sci, 2018, 37(3): 222 − 232. |
[40] |
SNYDER N J, MOSTAGHIMI S, BERRY D F, et al. Impact of riparian forest buffers on agricultural nonpoint source pollution [J]. J Am Water Resour Assoc, 1998, 34(2): 385 − 395. |