CAJ | 학술논문

水溶性有机物（DOM ）紫外‐可见吸收光谱特性是评价堆肥腐熟度重要方法之一，但由于紫外‐可见吸收光谱指标众多，单指标评价具有较大局限性。因此，本研究开展了影响堆肥腐熟度的关键紫外‐可见光谱特性指标识别，并采用化学剂量学方法评价了不同来源堆肥腐熟程度。与传统单一物料评价相比，优选的评价指标及评价方法更具普适性。不同物料堆肥过程中DOM 紫外‐可见光谱特性分析结果表明，SUVA254和SUVA280值呈明显的增加趋势，E250／E365和 E4／E6值呈相反的趋势，而 A226～400，S275～295，S350～400值则在堆肥末期变化显著。相关分析表明不同紫外‐可见光谱参数（E2／E4和 E235／E203除外）彼此之间相关性显著；主成分分析显示，DOM紫外‐可见光谱指标 A226～400， SUV A254， S350～400， SUV A280， S275～295可作为堆肥腐熟程度关键影响评价指标。在此基础上，采用筛选的特性指标对堆肥末期进行聚类分析，可将九种不同来源堆肥分为两大类，第一类为猪粪、鸡粪、污泥、秸秆、园林垃圾、果蔬及生活垃圾等腐熟程度较低的堆肥；第二类为杂草和厨余腐熟程度较高的堆肥。
수용성유궤물（DOM ）자외‐가견흡수광보특성시평개퇴비부숙도중요방법지일，단유우자외‐가견흡수광보지표음다，단지표평개구유교대국한성。인차，본연구개전료영향퇴비부숙도적관건자외‐가견광보특성지표식별，병채용화학제량학방법평개료불동래원퇴비부숙정도。여전통단일물료평개상비，우선적평개지표급평개방법경구보괄성。불동물료퇴비과정중DOM 자외‐가견광보특성분석결과표명，SUVA254화SUVA280치정명현적증가추세，E250／E365화 E4／E6치정상반적추세，이 A226～400，S275～295，S350～400치칙재퇴비말기변화현저。상관분석표명불동자외‐가견광보삼수（E2／E4화 E235／E203제외）피차지간상관성현저；주성분분석현시，DOM자외‐가견광보지표 A226～400， SUV A254， S350～400， SUV A280， S275～295가작위퇴비부숙정도관건영향평개지표。재차기출상，채용사선적특성지표대퇴비말기진행취류분석，가장구충불동래원퇴비분위량대류，제일류위저분、계분、오니、갈간、완림랄급、과소급생활랄급등부숙정도교저적퇴비；제이류위잡초화주여부숙정도교고적퇴비。
The present study was conducted to assess the degree of humification in DOM during composting using different raw materials ,and their effect on maturity of compost based on UV‐Vis spectra measurements and chemometrics method .The raw materials of composting studied included chicken manure ,pig manure ,kitchen waste ,lawn waste ,fruits and vegetables waste , straw waste ,green waste ,sludge ,and municipal solid waste .During composting ,the parameters of UV‐Vis spectra of DOM , including SUVA254 ,SUVA280 ,E250/E365 ,E4/E6 ,E2/E4 ,E2/E6 ,E253/E203 ,E253/E220 ,A226~400 ,S275~295 and S350~400 were cal‐culated ,Statistical analysis indicated that all the parameter were significantly changed during composting .SUVA254 and SUVA280 of DOM were continuously increased , E250/E365 and E4/E6 were continuously decreased in DOM ,while A226~400 , S275~295 and S350~400 of DOM at the final stage were significantly different with those at other stages of composting .Correlation analysis indi‐cated that the parameters were significantly correlated with each other except for E2/E4 and E235/E203 .Furthermore ,principal component analysis suggested that A226~400 ,SUVA254 ,S350~400 ,SUVA280 and S275~295 were reasonable parameters for assessing the compost maturity .To distinguish maturity degree among different composts ,hierarchical cluster analysis ,an integrated tool utilizing multiple UV‐Vis parameters ,was performed based on the data (A226~400 ,SUVA254 ,S350~400 ,SUVA280 and S275~295 ) of DOM derived from the final stage of composting .Composts from different sources were clustered into 2 groups .The first group included chicken manure ,pig manure ,lawn waste ,fruits and vegetables waste ,green waste ,sludge ,and municipal solid waste characterized by a lower maturity degree ,and the second group contained straw waste and kitchen waste associated with a higher maturity degree .The above results suggest that a multi‐index of UV‐Vis spectra could accurately evaluate the compost maturity , and A226~400 ,SUVA254 ,S350~400 ,SUVA280 and S275~295 of DOM could serve as primary parameters when the compost maturity was assessed using UV‐Vis spectra .