[1]王绍强,于贵瑞. 生态系统碳、氮、磷元素的生态化学计量学特征[J]. 生态学报,2008,28(8):3937-3947.
[2]Tian H Q,Chen G S,Zhang C,et al. Pattern and variation of C ∶ N ∶ P ratios in Chinas soils:a synthesis of observational data[J]. Biogeochemistry,2010,98:139-151.
[3]付珊,吴琴,尧波,等. 南矶湿地土壤碳、氮、磷化学计量比沿水位梯度的分布[J]. 湿地科学,2015,13(3):374-380.
[4]王维奇,曾从盛,钟春棋,等. 人类干扰对闽江河口湿地土壤碳、氮、磷生态化学计量学特征的影响[J]. 环境科学,2010,31(10):2411-2416.
[5]周正虎,王传宽,张全智. 土地利用变化对东北温带幼龄林土壤碳、氮、磷含量及其化学计量特征的影响[J]. 生态学报,2015,35(20):6694-6702.
[6]Guo L B,Gifford R M. Soil carbon stocks and land use change:a meta analysis[J]. Global Change Biology,2002,8(4):345-360.
[7]Xu Z H,Ward S,Chen C R,et al. Soil carbon and nutrient pools,microbial properties and gross nitrogen transformations in adjacent natural forest and hoop pine plantations of subtropical Australia[J]. Journal of Soils and Sediments,2008,8(2):99-105.
[8]屈凡柱,孟灵,付战勇,等. 不同生境条件下滨海芦苇湿地C、N、P化学计量特征[J]. 生态学报,2018,38(5):1731-1738.
[9]付珊. 鄱阳湖天然湿地开垦前后土壤C、N、P化学计量特征研究[D]. 南昌:江西师范大学,2015.
[10]沈永明,冯年华,周勤,等. 江苏沿海滩涂围垦现状及其对环境的影响[J]. 海洋科学,2006,30(10):39-43.
[11]欧维新,杨桂山,李恒鹏,等. 苏北盐城海岸带景观格局时空变化及驱动力分析[J]. 地理科学,2004,24(5):610-615.
[12]Gedan K B,Silliman B R,Bertness M D. Centuries of human-driven change in salt marsh ecosystems[J]. Annual Review of Marine Science,2009,1:117-141.
[13]张友,徐刚,高丽,等. 黄河三角洲新生湿地土壤碳、氮、磷分布及其生态化学计量学意义[J]. 地球与环境,2016,44(6):647-653.
[14]肖烨,商丽娜,黄志刚,等. 吉林东部山地沼泽湿地土壤碳、氮、磷含量及其生态化学计量学特征[J]. 地理科学,2014,34(8):994-1001.
[15]Zhang Z S,Lu X G,Song X L,et al. Soil C,N and P stoichiometry of Deyeuxia angustifolia and Carex lasiocarpa wetlands in Sanjiang Plain,Northeast China[J]. Journal of Soils and Sediments,2012,12(9):1309-1315.
[16]刘文龙,谢文霞,赵全升,等. 胶州湾芦苇潮滩土壤碳、氮和磷分布及生态化学计量学特征[J]. 湿地科学,2014,12(3):362-368.
[17]欧维新,杨桂山,于兴修,等. 盐城海岸带土地利用变化的生态环境效应研究[J]. 资源科学,2004,26(3):76-83.
[18]王维奇,王纯,曾从盛,等. 闽江河口不同河段芦苇湿地土壤碳、氮、磷生态化学计量学特征[J]. 生态学报,2012,32(13):4087-4093.
[19]韩华,王昊彬,余华光,等. 崇明滩涂湿地不同盐度梯度下芦苇种群及土壤的生态化学计量学特征[J]. 长江流域资源与环境,2015,24(5):816-823.
[20]曹磊,宋金明,李学刚,等. 黄河三角洲典型潮汐湿地碳、氮、磷生物地球化学特征[J]. 海洋科学,2015,39(1):84-92.
[21]刘丹,陈清,王义东,等. 天津市芦苇沼泽底泥中的碳、氮和磷分布及其生态化学计量学特征[J]. 湿地科学,2016,14(6):908-915.
[22]郭胜利,党廷辉,刘守赞,等. 磷素吸附特性演变及其与土壤磷素形态、土壤有机碳含量的关系[J]. 植物营养与肥料学报,2005,11(1):33-39.
[23]刘红玉,吕宪国,张世奎. 湿地景观变化过程与累积环境效应研究进展[J]. 地理科学进展,2003,22(1):60-70.
[24]Li J G,Pu L J,Zhu M,et al. Evolution of soil properties following reclamation in coastal areas:a review[J]. Geoderma,2014,226-227:130-139.
[25]Deegan L A,John D S,Warren R S,et al. Coastal eutrophication as a driver of salt marsh loss[J]. Nature,2012,490(7420):388-392.
[26]毛志刚,谷孝鸿,刘金娥,等. 盐城海滨盐沼湿地及围垦农田的土壤质量演变[J]. 应用生态学报,2010,21(8):1986-1992.
[27]尹爱经. 典型滩涂围垦区土壤理化性质和磷形态演变[D]. 南京:南京大学,2015:50-72.
[28]任美鄂. 江苏省海岸带和海涂资源综合调查报告[R]. 北京:海洋出版社,1986:12-30.
[29]高建华,白凤龙,杨桂山,等. 苏北潮滩湿地不同生态带碳、氮、磷分布特征[J]. 第四纪研究,2007,27(5):756-765.
[30]Portnoy J W. Gull contributions of phosphorus and nitrogen to a Cape Cod kettle pond[J]. Hydrobiologia,1990,202:61-69.
[31]徐莎,陈圆,印杰,等. 典型滨海湿地沉积物反硝化与硝态氮氨化相对重要性研究[J]. 南京林业大学学报(自然科学版),2016,40(2):9-15.
[32]Cleveland C C,Liptzin D. C:N:P stoichiometry in soil:is there a “Redfield ratio” for the microbial biomass?[J]. Biogeochemistry,2007,85:235-252.
[33]曾从盛,钟春棋,仝川,等. 闽江口湿地不同土地利用方式下表层土壤N,P,K含量研究[J]. 水土保持学报,2009,23(3):87-91.
[34]Fernández S,Santín C,Marquínez J,et al. Saltmarsh soil evolution after land reclamation in Atlantic estuaries (Bay of Biscay,North coast of Spain)[J]. Geomorphology,2010,114(4):497-507.
[35]Chen X W,Li B L. Change in soil carbon and nutrient storage after human disturbance of a primary Korean pine forest in Northeast China[J]. Forest Ecology and Management,2003,186(1/2/3):197-206.
[36]张华兵,刘红玉,李玉凤,等. 自然条件下盐城海滨湿地土壤水分辕盐度空间分异及其与植被关系研究[J]. 环境科学,2013,34(2):540-546.
[37]Wieski K,Guo H Y,Craft C B,et al. Ecosystem functions of tidal fresh,brackish,and salt marshes on the Georgia coast[J]. Estuaries and Coasts,2010,33(1):161-169.
[38]潘宏,陈邦本,方明. 江苏轻壤质滨海盐土向潮土演化过程中土壤有效养分的变化[J]. 江苏农业科学,1993(2):41-43.
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Huang Yihong,et al.Investigation and analysis of bird disaster and planting of oil sunflower on coastal tidal land[J].Jiangsu Agricultural Sciences,2013,41(08):94.
[2]荣月静,张慧,赵显富.基于InVEST模型近10年太湖流域土地利用变化下碳储量功能[J].江苏农业科学,2016,44(06):447.
Rong Yuejing,et al.Effect of land use changes on carbon storage of Taihu Basin in last ten years based on InVEST model[J].Jiangsu Agricultural Sciences,2016,44(08):447.
[3]刘洋,潘国浩,付强,等.盐城市滨海滩涂围垦区农作物氮、磷累积特征[J].江苏农业科学,2016,44(02):385.
Liu Yang,et al.Crop nitrogen and phosphorus accumulation characteristics in coastal tideland reclamation district of Yancheng City[J].Jiangsu Agricultural Sciences,2016,44(08):385.
[4]宋利利,秦明周,范云峰,等.县域土地利用总体规划实施的生态效应评价——以河南省叶县为例[J].江苏农业科学,2015,43(07):460.
Song Lili,et al.Evaluation of ecological effect of land use planning at county level—Taking Yexian County of Henan Province as an example[J].Jiangsu Agricultural Sciences,2015,43(08):460.
[5]刘亚萍,赵艳玲,侯东文,等.基于CLUE-S模型重金属污染区域空间优化配置研究[J].江苏农业科学,2014,42(06):326.
Liu Yaping,et al.Study on space optimization of heavy metal pollution area based on CLUE-S model[J].Jiangsu Agricultural Sciences,2014,42(08):326.
[6]余嘉琦,李钢,赵华,等.江苏省沛县土地利用变化及其生态服务价值研究[J].江苏农业科学,2015,43(06):371.
Yu Jiaqi,et al.Study on land use type change and ecological service value in Pei County,Jiangsu Province[J].Jiangsu Agricultural Sciences,2015,43(08):371.
[7]王 瑾,周忠发,胡九超,等.石漠化地区现代烟草农业基地单元工程配置对土地利用的影响[J].江苏农业科学,2015,43(02):381.
Wang Jin,et al.Effect of modern karst tobacco agriculture base unit project configuration on land use change in rocky desertification area[J].Jiangsu Agricultural Sciences,2015,43(08):381.
[8]李强,马代夫,李秀英,等.高淀粉甘薯品种徐薯29的选育与栽培技术[J].江苏农业科学,2015,43(01):96.
Li Qiang,et al.Breeding and cultivation techniques of sweet potato cultivar “Xushu 29” with high starch[J].Jiangsu Agricultural Sciences,2015,43(08):96.
[9]蒲罗曼,张树文,李飞,等.近40年东北农牧交错带土地利用变化对人类活动的响应——以吉林省西部地区为例[J].江苏农业科学,2016,44(06):522.
Pu Luoman,et al.Response analysis of land use change to degree of human activity in farming-pastoral ecotone in recent 40 years—Taking western Jilin Province as an example[J].Jiangsu Agricultural Sciences,2016,44(08):522.
[10]汤洁,李红薇,李昭阳,等.太平池湿地区域生态系统服务价值对土地利用变化的响应[J].江苏农业科学,2017,45(07):224.
Tang Jie,et al.Response of ecosystem service values to land use change in Taipingchi wetland region[J].Jiangsu Agricultural Sciences,2017,45(08):224.