[1]龚云辉,刘云根,杨思林,等.pH值对高原山地分散养殖型农村沟渠底泥磷释放的影响[J].江苏农业学报,2020,(04):955-964.[doi:doi:10.3969/j.issn.1000-4440.2020.04.021]
 GONG Yun-hui,LIU Yun-gen,YANG Si-lin,et al.Effects of pH value on the release of phosphorus from the sediment in scattered farming rural ditch in plateau region[J].,2020,(04):955-964.[doi:doi:10.3969/j.issn.1000-4440.2020.04.021]
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pH值对高原山地分散养殖型农村沟渠底泥磷释放的影响()
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江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2020年04期
页码:
955-964
栏目:
耕作栽培·资源环境
出版日期:
2020-08-31

文章信息/Info

Title:
Effects of pH value on the release of phosphorus from the sediment in scattered farming rural ditch in plateau region
作者:
龚云辉1刘云根12杨思林1王妍12杜鹏睿1张晋龙1
(1.西南林业大学生态与环境学院,云南昆明650224;2.云南省山地农村生态环境演变与污染治理重点实验室,云南昆明650224)
Author(s):
GONG Yun-hui1LIU Yun-gen12YANG Si-lin1WANG Yan12DU Peng-rui1ZHANG Jin-long1
(1. College of Ecology and Environment, Southwest Forestry University, Kunming 650224, China;2.Key Laboratory of Ecological Environment Evolution and Pollution Control in Mountainous Rural Areas, Kunming 650224, China)
关键词:
高原山地分散养殖沟渠底泥pH磷形态释放通量微生物
Keywords:
plateau regionscattered farmingditch sedimentpHphosphorus formsrelease fluxmicroorganisms
分类号:
X171.4
DOI:
doi:10.3969/j.issn.1000-4440.2020.04.021
文献标志码:
A
摘要:
以典型高原山地分散养殖型农村沟渠底泥为研究对象,通过室内模拟灭菌和未灭菌处理条件下pH为5.5、7.5、9.5、11.5的环境条件,估算底泥-水界面总磷(TP)和正磷酸盐(PO3-4-P)释放通量变化,研究pH对底泥磷释放及各形态磷含量变化的影响。结果表明,沟渠底泥中铁铝结合态磷(NaOH-P)占TP比例最高,钙结合态磷(HCl-P)次之,有机磷(OP)则相对较少;NaOH-P和OP占TP的比例随pH的升高而降低,HCl-P则相反。随时间推移,NaOH-P和HCl-P占TP比例在15 d时出现拐点,均呈现先增后减趋势;OP则先降后增;碱性条件(pH>9.5)更有利于底泥磷释放,且底泥中各形态磷在pH影响下存在相互转化的可能性。冗余分析结果表明,酸性条件下(pH=5.5)pH与HCl-P含量为正相关关系,中性条件下(pH=7.5)pH与NaOH-P、HCl-P含量为负相关关系,碱性条件下(pH≥9.5)pH与NaOH-P含量呈正相关关系。未灭菌处理组的释放通量和上覆水中TP、PO3-4-P质量浓度始终高于灭菌处理组,强碱性条件下(pH=11.5)TP和PO3-4-P的释放通量分别是酸性条件下(pH=5.5)的13和24倍,微生物对于底泥中各形态磷转化为PO3-4-P进入上覆水体的影响较小。说明沟渠底泥在碱性条件下磷释放潜力较大,微生物能够促进底泥中磷释放,增加底泥磷向上覆水释放的风险。
Abstract:
Taking the sediment in rural ditches of typical highland and mountainous areas as the research object, the environmental conditions with pH values of 5.5, 7.5, 9.5 and 11.5 at the sterilized and unsterilized treatment conditions were simulated indoors to estimate the flux change of total phosphorus (TP) and soluble orthophosphate (PO3-4-P) at the sediment-water interface, and the effects of pH on phosphorus release from sediment and the content change of various forms of phosphorus were studied. The results showed that the proportion of Fe-Al bound phosphorus (NaOH-P) in TP was the highest, followed by Ca-bound phosphorus (HCl-P), and the proportion of organic phosphorus (OP) was relatively low. The proportion of NaOH-P and OP in TP decreased with the increase of pH, while the proportion of HCl-P in TP increased with the increase of pH. With the passage of time, the proportion of NaOH-P and HCl-P in TP showed an inflection point at 15 days, and increased first and then decreased. The proportion of OP in TP decreased first and then increased. Alkaline condition (pH>9.5) was more conductive to the release of phosphorus from the bottom sediment, and there was the possibility of mutual transformation of phosphorus in the bottom sediment under the influence of pH. The results of redundancy analysis indicated that pH was positively correlated with HCl-P content under acidic condition (pH=5.5). Under neutral condition (pH=7.5), pH was negatively correlated with NaOH-P content and HCl-P content. The pH was positively correlated with NaOH-P content under alkaline conditions (pH≥9.5). The release flux and the mass concentrations of TP and PO3-4-P in the overlying water in the unsterilized treatment group were always higher than those in the sterilized treatment group. The release fluxes of TP and PO3-4-P under strong base condition (pH=11.5) were 13 times and 24 times higher than those under acidic condition (pH=5.5). Microorganisms had little influence on the transformation of phosphorus from sediment into PO3-4-P. It is revealed that the phosphorus release potential of bottom sediment is great under alkaline conditions, and the microorganisms can promote the release of phosphorus in the bottom sediment and increase the release risk of phosphorus from the bottom sediment to the overlying water.

参考文献/References:

[1]ISLAM S . Nitrogen and phosphorus budget in coastal and marine cage aquaculture and impacts of effluent loading on ecosystem: review and analysis towards model development[J]. Marine Pollution Bulletin, 2005, 50(1):48-61.
[2]TEMPORETTI P, BEAMUD G, NICHELA D, et al. The effect of pH on phosphorus sorbed from sediments in a river with a natural pH gradient[J]. Chemosphere, 2019, 228:287-299.
[3]MARTIN S, BJERRING R, JEPPESEN E. Persistent internal phosphorus loading during summer in shallow eutrophic lakes[J]. Hydrobiologia, 2013, 710(1):95-107.
[4]NUR R, BATES M H. The effects of pH on the aluminum, iron and calcium phosphate fractions of lake sediments[J]. Water Research, 1979, 13(8):813-815.
[5]LU H, WAN J, LI J, et al. Periphytic biofilm: A buffer for phosphorus precipitation and release between sediments and water[J]. Chemosphere, 2016, 144:2058-2064.
[6]金相灿,王圣瑞,庞燕,等. 太湖沉积物磷形态及pH值对磷释放的影响[J]. 中国环境科学,2004,14 (6):68-72.
[7]郭志勇,李晓晨,王超,等. pH值对玄武湖沉积物中磷的释放及形态分布的影响[J]. 农业环境科学学报,2007,8(3): 873-877.
[8]XIANGCAN J,SHENGRUI W,YAN P. Phosphorus fractions and the effect of pH on the phosphorus release of the sediments from different trophic areas in Taihu Lake,China[J]. Environmental Pollution,2006,139(2):280-295.
[9]JENSEN H S,ANDERSEN F. Importance of temperature,nitrate,and pH for phosphate release from aerobic sediments of four shallow,eutrophic lakes[J]. Limnology and Oceanography,1992,37(3):577-589.
[10]马鲁铭,王云龙,刘志刚,等. 南方农村生活污水处理目标及工艺模式探讨[J]. 中国环境科学,2013,33 (1):118-122.
[11]雷雨梦,刘云根,梁启斌,等. 云南不同类型农村沟渠底泥磷形态分布特征及风险评价[J]. 环境科学与技术,2017,40(3):161-166.
[12]梅涵一,刘云根,侯磊,等. 高原湖泊流域不同类型农村沟渠底泥氮、磷和有机质分布特征及污染评价[J]. 安徽农业大学学报,2017,44(2):289-295.
[13]梅涵一,刘云根,郑寒,等. 云南分散畜禽养殖密集型农村污水特征及污染风险评价[J]. 环境工程,2016,34(7):46-51.
[14]梅涵一,刘云根,郑寒,等. 普者黑流域畜禽养殖型农村沟渠底泥磷形态分布特征及风险评价[J]. 土壤通报,2017,48(1):195-201.
[15]王雨春,黄荣贵. SWB-1型便携式湖泊沉积物-界面水取样器的研制[J]. 地质地球化学,1998(1):94-96.
[16]国家环境保护总局. 水和废水监测分析方法[M]. 4版.北京:中国环境科学出版社,2002.
[17]张红,陈敬安,王敬富,等. 贵州红枫湖底泥磷释放的模拟实验研究[J]. 地球与环境,2015,43(2):243-251.
[18]王敬富,陈敬安,罗婧,等. 红枫湖沉积物内源磷释放通量估算方法的对比研究[J]. 地球与环境,2018,46(1) :1-6.
[19]李乐,王圣瑞,焦立新,等. 滇池柱状沉积物磷形态垂向变化及对释放的贡献[J]. 环境科学,2016,37(9):3384-3393.
[20]刘佳,雷丹,李琼,等. 黄柏河流域梯级水库沉积物磷形态特征及磷释放通量分析[J]. 环境科学,2018,39(4):1608-1615.
[21]王新建,王松波,耿红. 东湖、汤逊湖和梁子湖沉积物磷形态及pH对磷释放的影响[J]. 生态环境学报,2013,22(5):810-814.
[22]黄清辉,王东红,王春霞,等. 沉积物中磷形态与湖泊富营养化的关系[J]. 中国环境科学,2003,14 (6):24-27.
[23]黎睿,王圣瑞,肖尚斌,等. 长江中下游与云南高原湖泊沉积物磷形态及内源磷负荷[J]. 中国环境科学,2015,35(6): 1831-1839.
[24]WANG K,LIN Z,ZHANG R. Impact of phosphate mining and separation of mined materials on the hydrology and water environment of the Huangbai River basin,China[J]. Science of The Total Environment,2016,543:347-356.
[25]张奇,喻庆国,王胜龙,等. 滇西北剑湖沉积物磷形态、空间分布及释放贡献[J]. 环境科学学报,2017,37(10):3792-3803.
[26]李楠,单保庆,张洪,等. 沉积物中有机磷在pH和温度影响下的矿化机制[J]. 环境科学,2011,32(4):1008-1014.
[27]张斌,席北斗,赵越,等. 五大连池水溶性有机磷矿化特性的研究[J]. 环境科学,2012,33(5): 1491-1496.
[28]李兵,袁旭音,邓旭,等. 不同pH条件下太湖入湖河道沉积物磷的释放[J]. 生态与农村环境报,2008,9(4):57-62.
[29]王颖,沈珍瑶,呼丽娟,等. 三峡水库主要支流沉积物的磷吸附/释放特性[J]. 环境科学学报,2008,21(8):1654-1661.
[30]徐进,徐力刚,龚然,等. 鄱阳湖沉积物中磷吸附释放特性及影响因素研究[J]. 生态环境学报,2014,23(4):630-635.
[31]袁和忠,沈吉,刘恩峰,等. 模拟水体pH控制条件下太湖梅梁湾沉积物中磷的释放特征[J]. 湖泊科学,2009,21(5):663-668.
[32]刘鹏,张紫霞,张超,等. 普者黑河流-湖泊湿地表层沉积物磷素时空分布及影响因素[J]. 农业环境科学学报,2019,38(11):2553-2562.
[33]孙晓杭,张昱,张斌亮,等. 微生物作用对太湖沉积物磷释放影响的模拟实验研究[J]. 环境化学,2006,5(1):24-27.
[34]汪家权,孙亚敏,钱家忠,等. 巢湖底泥磷的释放模拟实验研究[J]. 环境科学学报,2002,19(6):738-742.
[35]潘齐坤,罗专溪,颜昌宙,等. 城市滨海湿地表层沉积物磷形态与相关关系分析[J]. 生态环境学报,2010,19(9): 2117-2122.
[36]钱燕,陈正军,吴定心,等. 微生物活动对富营养化湖泊底泥磷释放的影响[J]. 环境科学与技术,2016,39(4): 35-40.
[37]黄廷林,周瑞媛,夏超,等. 氧化还原电位及微生物对水库底泥释磷的影响[J]. 环境化学,2014,33(6): 930-936.
[38]叶琳琳,朱燕,徐圣友,等. 微生物对巢湖沉积物生物可利用磷的稳定性影响[J]. 资源环境与工程,2007(3): 339-343.
[39]张义,刘子森,张垚磊,等. 环境因子对杭州西湖沉积物各形态磷释放的影响[J]. 水生生物学报,2017,41(6): 1354-1361.
[40]柳飞,张延一,严玉鹏,等. 不同结构有机磷在(氢)氧化铝表面的吸附与解吸特征[J]. 环境科学,2013,34(11): 4482-4489.
[41]ZBOINSKA E,MALISZEWSKA I,LEJCZAK B,et al. Degradation of organophosphonates by Penicillium citrinum[J]. Letters in Applied Microbiology,2008,15(6):269-272.
[42]鲍林林,李叙勇. 河流沉积物磷的吸附释放特征及其影响因素[J]. 生态环境学报,2017,26(2): 350-356.
[43]周进,林光辉,蔡中华,等. 微生物在藻际环境中的物质循环作用[J]. 应用生态学报,2016,27(8): 2708-2716.
[44]左乐,吕昌伟,何江,等. 微生物对冰封期湖泊沉积物中有机磷降解释放的影响[J]. 环境科学,2015,36(12): 4501-4508.

备注/Memo

备注/Memo:
收稿日期:2020-01-18基金项目:国家自然科学基金项目(41761098、21767027);云南省教育厅科学研究基金项目(2019Y0131)作者简介:龚云辉(1994-),男,彝族,云南玉溪人,硕士研究生,研究方向为环境生态。(E-mail)1341310581@qq.com通讯作者:杨思林,(E-mail)84458250@qq.com
更新日期/Last Update: 2020-09-08