生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
4期
716-720
,共5页
楼涛%汪学军%何昆鹏%杨臻
樓濤%汪學軍%何昆鵬%楊臻
루도%왕학군%하곤붕%양진
腐殖质%光化学%结构%污染物%环境行为
腐殖質%光化學%結構%汙染物%環境行為
부식질%광화학%결구%오염물%배경행위
humic substance%photochemistry%structure%pollutant%environmental behavior
腐殖质是地表环境中最重要的有机组分,也是生态环境中最主要的吸光物质之一,对环境污染物的形态、迁移、毒性和生物可利用性有着重要的影响。文章综述了腐殖质的结构特征和光化学降解反应过程和机理,指出腐殖质的光敏化和光化学降解过程对环境污染物的环境行为和归宿有重要的影响。通常,腐殖质的光敏化作用在低质量浓度下,尤其在一定铁离子的协同作用下可促进有机污染物的降解,但高质量浓度的腐殖质由于其本身的吸光作用以及参与自由基的竞争则抑制有机污染物的降解。腐殖质的光化学降解过程降低了环境体系的pH和腐殖质的分子量、破坏了腐殖质的芳环结构、改变了紫外和可见光区域的吸收等,导致其与重金属离子和有机污染物结合能力的下降,造成水体或颗粒态中游离的污染物质量浓度增加,对生态系统将造成更大的危害。目前对腐殖质和环境污染物本身的光化学降解机理已较为清晰,今后应加强对自然水体或土壤系统中腐殖质光化学降解的影响因素,腐殖质光化学降解过程中结构特性的变化机理,以及腐殖质的结构特性与环境污染物结合性质之间的构效关系等方面的研究。特别是随着平流层臭氧空洞的增加,增强了到达地球表面的紫外线强度,研究紫外线增强对腐殖质和有机污染物的降解以及对生态系统的影响可进一步深刻理解太阳光辐射对污染物环境行为和归宿的影响。
腐殖質是地錶環境中最重要的有機組分,也是生態環境中最主要的吸光物質之一,對環境汙染物的形態、遷移、毒性和生物可利用性有著重要的影響。文章綜述瞭腐殖質的結構特徵和光化學降解反應過程和機理,指齣腐殖質的光敏化和光化學降解過程對環境汙染物的環境行為和歸宿有重要的影響。通常,腐殖質的光敏化作用在低質量濃度下,尤其在一定鐵離子的協同作用下可促進有機汙染物的降解,但高質量濃度的腐殖質由于其本身的吸光作用以及參與自由基的競爭則抑製有機汙染物的降解。腐殖質的光化學降解過程降低瞭環境體繫的pH和腐殖質的分子量、破壞瞭腐殖質的芳環結構、改變瞭紫外和可見光區域的吸收等,導緻其與重金屬離子和有機汙染物結閤能力的下降,造成水體或顆粒態中遊離的汙染物質量濃度增加,對生態繫統將造成更大的危害。目前對腐殖質和環境汙染物本身的光化學降解機理已較為清晰,今後應加彊對自然水體或土壤繫統中腐殖質光化學降解的影響因素,腐殖質光化學降解過程中結構特性的變化機理,以及腐殖質的結構特性與環境汙染物結閤性質之間的構效關繫等方麵的研究。特彆是隨著平流層臭氧空洞的增加,增彊瞭到達地毬錶麵的紫外線彊度,研究紫外線增彊對腐殖質和有機汙染物的降解以及對生態繫統的影響可進一步深刻理解太暘光輻射對汙染物環境行為和歸宿的影響。
부식질시지표배경중최중요적유궤조분,야시생태배경중최주요적흡광물질지일,대배경오염물적형태、천이、독성화생물가이용성유착중요적영향。문장종술료부식질적결구특정화광화학강해반응과정화궤리,지출부식질적광민화화광화학강해과정대배경오염물적배경행위화귀숙유중요적영향。통상,부식질적광민화작용재저질량농도하,우기재일정철리자적협동작용하가촉진유궤오염물적강해,단고질량농도적부식질유우기본신적흡광작용이급삼여자유기적경쟁칙억제유궤오염물적강해。부식질적광화학강해과정강저료배경체계적pH화부식질적분자량、파배료부식질적방배결구、개변료자외화가견광구역적흡수등,도치기여중금속리자화유궤오염물결합능력적하강,조성수체혹과립태중유리적오염물질량농도증가,대생태계통장조성경대적위해。목전대부식질화배경오염물본신적광화학강해궤리이교위청석,금후응가강대자연수체혹토양계통중부식질광화학강해적영향인소,부식질광화학강해과정중결구특성적변화궤리,이급부식질적결구특성여배경오염물결합성질지간적구효관계등방면적연구。특별시수착평류층취양공동적증가,증강료도체지구표면적자외선강도,연구자외선증강대부식질화유궤오염물적강해이급대생태계통적영향가진일보심각리해태양광복사대오염물배경행위화귀숙적영향。
Humic substance is the key organic component, and also one of the main light absorbents in ecosystem, which impacts on the environmental pollutants’ conformation, migration, toxicity and bioavailability significantly. This paper reviews the structure, and photochemical degradation reaction process and mechanism of humic substance. In general, humic substance promotes the photodegradation of pollutants at low concentration, especially with certain iron. However it depresses the photodegradation at high concentration due to the competition of sunlight and reactive oxygen species. Photodegradation of humic substance results in the decrease of molecular weight, aromatic ring and changes of absorbance of ultraviolet and visible region which lead to the lower binding capacity of pollutants and the higher free pollutant concentration. It would be more harmful to the ecosystem. Although it is clear of the mechanism of photodegradation of humic substance and pollutants, more attentions should be paid on the factors of humic substance photodegradation in water and soil system, the mechanism of photosensitive reaction and photodegradation of humic substance, and the relationship between the structure of humic substance and binding capacity of pollutants in the near future. With the increase of stratospheric ozone hole, it enhances the intensity of ultraviolet radiation to the earth's surface. To study the influences of ultraviolet radiation enhancement on the photodegradation of humic substance and pollutants and their impacts on the ecosystem would deep our understandings to the environmental pollutant behavior caused by sunlight radiation.
