光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
Spectroscopy and Spectral Analysis
2015年
11期
3200-3203
,共4页
赵颖%马强%周桦%姜春明%徐永刚%姜子绍%宇万太
趙穎%馬彊%週樺%薑春明%徐永剛%薑子紹%宇萬太
조영%마강%주화%강춘명%서영강%강자소%우만태
有机肥%重金属%淋溶%表层土壤%地下水
有機肥%重金屬%淋溶%錶層土壤%地下水
유궤비%중금속%림용%표층토양%지하수
Manure%Heavy metal%Leaching%Surface soil%Groundwater
以下辽河平原11年长期定位试验为平台,采用原状土柱淋溶实验,通过比较不同用量有机肥处理土壤重金属积累情况及其淋溶特征,探讨了雨养农业条件下有机培肥措施对土壤表层重金属(Cu ,Zn ,Cd和Cr)积累的影响,阐述了重金属在土壤表层(0~20 cm)中的积累特征明确了重金属元素的淋溶特点和垂直迁移规律(0~60 cm)。研究表明,随着有机肥用量增加,表层土壤中Cu ,Zn ,Cd和Cr的含量都随之升高,积累速度为Cd>Cu>Zn>Cr。根据中国土壤环境质量标准(GB15618-1995),即使施入50 t?ha-1有机肥料,也未造成表层土壤Cr ,Cu和Zn的污染,其中Cr仍符合Ⅰ类土壤质量标准,而Cu和Zn符合国家Ⅱ类土壤质量标准,但对Cd而言,此时表层土壤含量已接近国家Ⅲ类土壤质量标准阈值,存在较大风险,应引起足够重视。土柱淋溶实验表明,只有个别淋溶液Cu和Cd浓度属于国家Ⅲ类水质量标准(GB/T14848—93),其余均符合国家Ⅱ类及以上水质标准,且所有淋溶液Cr的含量都符合国家Ⅰ类水质标准,表明在下辽河平原,即使有机肥使用量达到50 t?ha-1时,仍未对地下水构成任何风险。另外,淋溶液中的重金属含量均随土层深度增加呈现下降趋势(Cr除外),表现出重金属不易下移的特点,但相对而言,Zn和Cr向深层土壤淋溶能力较强,C u和C d则更易积累在表层土壤。
以下遼河平原11年長期定位試驗為平檯,採用原狀土柱淋溶實驗,通過比較不同用量有機肥處理土壤重金屬積纍情況及其淋溶特徵,探討瞭雨養農業條件下有機培肥措施對土壤錶層重金屬(Cu ,Zn ,Cd和Cr)積纍的影響,闡述瞭重金屬在土壤錶層(0~20 cm)中的積纍特徵明確瞭重金屬元素的淋溶特點和垂直遷移規律(0~60 cm)。研究錶明,隨著有機肥用量增加,錶層土壤中Cu ,Zn ,Cd和Cr的含量都隨之升高,積纍速度為Cd>Cu>Zn>Cr。根據中國土壤環境質量標準(GB15618-1995),即使施入50 t?ha-1有機肥料,也未造成錶層土壤Cr ,Cu和Zn的汙染,其中Cr仍符閤Ⅰ類土壤質量標準,而Cu和Zn符閤國傢Ⅱ類土壤質量標準,但對Cd而言,此時錶層土壤含量已接近國傢Ⅲ類土壤質量標準閾值,存在較大風險,應引起足夠重視。土柱淋溶實驗錶明,隻有箇彆淋溶液Cu和Cd濃度屬于國傢Ⅲ類水質量標準(GB/T14848—93),其餘均符閤國傢Ⅱ類及以上水質標準,且所有淋溶液Cr的含量都符閤國傢Ⅰ類水質標準,錶明在下遼河平原,即使有機肥使用量達到50 t?ha-1時,仍未對地下水構成任何風險。另外,淋溶液中的重金屬含量均隨土層深度增加呈現下降趨勢(Cr除外),錶現齣重金屬不易下移的特點,但相對而言,Zn和Cr嚮深層土壤淋溶能力較彊,C u和C d則更易積纍在錶層土壤。
이하료하평원11년장기정위시험위평태,채용원상토주림용실험,통과비교불동용량유궤비처리토양중금속적루정황급기림용특정,탐토료우양농업조건하유궤배비조시대토양표층중금속(Cu ,Zn ,Cd화Cr)적루적영향,천술료중금속재토양표층(0~20 cm)중적적루특정명학료중금속원소적림용특점화수직천이규률(0~60 cm)。연구표명,수착유궤비용량증가,표층토양중Cu ,Zn ,Cd화Cr적함량도수지승고,적루속도위Cd>Cu>Zn>Cr。근거중국토양배경질량표준(GB15618-1995),즉사시입50 t?ha-1유궤비료,야미조성표층토양Cr ,Cu화Zn적오염,기중Cr잉부합Ⅰ류토양질량표준,이Cu화Zn부합국가Ⅱ류토양질량표준,단대Cd이언,차시표층토양함량이접근국가Ⅲ류토양질량표준역치,존재교대풍험,응인기족구중시。토주림용실험표명,지유개별림용액Cu화Cd농도속우국가Ⅲ류수질량표준(GB/T14848—93),기여균부합국가Ⅱ류급이상수질표준,차소유림용액Cr적함량도부합국가Ⅰ류수질표준,표명재하료하평원,즉사유궤비사용량체도50 t?ha-1시,잉미대지하수구성임하풍험。령외,림용액중적중금속함량균수토층심도증가정현하강추세(Cr제외),표현출중금속불역하이적특점,단상대이언,Zn화Cr향심층토양림용능력교강,C u화C d칙경역적루재표층토양。
Based on an 11‐year fertilizer field trial (located at the lower liaohe river plain) ,the effects of different organic manure application rates on the accumulations of heavy metals (Cu ,Zn ,Cd and Cr) in surface soil (0~20 cm) ,and the leaching charac‐teristic and vertical migration pattern of heavy metal have been investigated in this rainfed agro‐ecosystem using undisturbed soil columns .The result showed that the content of heavy metal in surface soil was elevated with the increase of manure application . The increasing magnitude was in the order of Cd> Cu> Zn> Cr .According to the Chinese soil quality standard (GB15618—1995) ,the application of manure (not exceeding 50 t?ha-1 ) did not result in serious heavy metal pollution in the surface soil . Chromium met the Grade Ⅰ ,and Cu and Zn met the Grade Ⅱ ;whereas ,Cd was almost exceeded the threshold of Grade Ⅲ . The potential risk of Cd in soil should be paid more attentions in future research .According to the National water quality stand‐ard (GB/T14848—93) ,the Cu and Cd concentrations in leachate samples were up to the Grade Ⅱ except only a few samples that fell in Grade Ⅲ .Furthermore ,Cr in the leachate all matched Grade Ⅰ water quality standard .These results indicated long‐term application of manure (not exceeding 50 t?ha-1 ) in our site had not induced contaminant risks of heavy metals in underground water .In addition ,the Cu ,Zn and Cd (except Cr) in leachate all declined with the increase of soil depth ,indicating the low ca‐pacity of vertical migration of heavy metal .Among the four heavy metals ,Zn and Cr tended to be leached into deep soil ,whereas Cu and Cd were more prone to be accumulated in surface soil .