湖泊科学
湖泊科學
호박과학
JOURNAL OF LAKE SCIENCES
2015年
5期
941-952
,共12页
李思佳%宋开山%陈智文%赵莹%邵田田%穆光熠%关莹
李思佳%宋開山%陳智文%趙瑩%邵田田%穆光熠%關瑩
리사가%송개산%진지문%조형%소전전%목광습%관형
兴凯湖%吸收光谱%有色可溶性有机物%非藻类颗粒物%浮游植物
興凱湖%吸收光譜%有色可溶性有機物%非藻類顆粒物%浮遊植物
흥개호%흡수광보%유색가용성유궤물%비조류과립물%부유식물
Lake Xingkai%absorption spectra%CDOM%nonalgal particles%phytoplankton
为了分析兴凯湖水体光学活性物质的吸收特性、来源和空间分布以及对400~700 nm范围内总吸收的贡献,于2013年5月对该水体进行野外实验,对水体中浮游藻类、非藻类颗粒物和有色可溶性有机物的吸收特性和水质参数进行测定.结果表明:总悬浮颗粒物的吸收光谱与非藻类颗粒物相似,色素颗粒物含量较少且单一,非藻类颗粒物在总悬浮颗粒物吸收中占主导地位,其贡献率始终在50%以上. CDOM吸收曲线的拟合函数斜率值Sg均高于其它水体.440 nm处总悬浮颗粒物和非藻类颗粒物的吸收系数ap(440)、ad(440)与总悬浮颗粒物、无机悬浮颗粒物和有机悬浮颗粒物浓度相关性均较好,与叶绿素a( Chl. a)浓度的相关性较差.兴凯湖与其它Ⅱ类水体的差异性表现在440 nm处CDOM吸收系数ag(440)与Chl. a浓度、溶解性有机碳(DOC)浓度均无显著相关性,说明DOC以无色部分为主.总体上,大兴凯湖各吸收系数和水质参数均值均低于小兴凯湖,后者水质受农耕区退水及周围渔业、旅游业的影响较大.
為瞭分析興凱湖水體光學活性物質的吸收特性、來源和空間分佈以及對400~700 nm範圍內總吸收的貢獻,于2013年5月對該水體進行野外實驗,對水體中浮遊藻類、非藻類顆粒物和有色可溶性有機物的吸收特性和水質參數進行測定.結果錶明:總懸浮顆粒物的吸收光譜與非藻類顆粒物相似,色素顆粒物含量較少且單一,非藻類顆粒物在總懸浮顆粒物吸收中佔主導地位,其貢獻率始終在50%以上. CDOM吸收麯線的擬閤函數斜率值Sg均高于其它水體.440 nm處總懸浮顆粒物和非藻類顆粒物的吸收繫數ap(440)、ad(440)與總懸浮顆粒物、無機懸浮顆粒物和有機懸浮顆粒物濃度相關性均較好,與葉綠素a( Chl. a)濃度的相關性較差.興凱湖與其它Ⅱ類水體的差異性錶現在440 nm處CDOM吸收繫數ag(440)與Chl. a濃度、溶解性有機碳(DOC)濃度均無顯著相關性,說明DOC以無色部分為主.總體上,大興凱湖各吸收繫數和水質參數均值均低于小興凱湖,後者水質受農耕區退水及週圍漁業、旅遊業的影響較大.
위료분석흥개호수체광학활성물질적흡수특성、래원화공간분포이급대400~700 nm범위내총흡수적공헌,우2013년5월대해수체진행야외실험,대수체중부유조류、비조류과립물화유색가용성유궤물적흡수특성화수질삼수진행측정.결과표명:총현부과립물적흡수광보여비조류과립물상사,색소과립물함량교소차단일,비조류과립물재총현부과립물흡수중점주도지위,기공헌솔시종재50%이상. CDOM흡수곡선적의합함수사솔치Sg균고우기타수체.440 nm처총현부과립물화비조류과립물적흡수계수ap(440)、ad(440)여총현부과립물、무궤현부과립물화유궤현부과립물농도상관성균교호,여협록소a( Chl. a)농도적상관성교차.흥개호여기타Ⅱ류수체적차이성표현재440 nm처CDOM흡수계수ag(440)여Chl. a농도、용해성유궤탄(DOC)농도균무현저상관성,설명DOC이무색부분위주.총체상,대흥개호각흡수계수화수질삼수균치균저우소흥개호,후자수질수농경구퇴수급주위어업、여유업적영향교대.
Field surveys were carried out in the Lake Xingkai( including both the Great Lake Xingkai and the Small Lake Xingkai) in May 2013, and water samples were collected for examination of the absorption features. In the laboratory, tripton and chromo-phoric dissolved organic matter( CDOM) absorption of 20 water samples were measured through quantitative filter technique. Ab-sorption coefficients were used to analyse the absorption characteristics, source, spatial distribution and relative contribution of op-tical active constituents over the range of PAR(400 700 nm). The results showed that the absorption spectra of tripton are similar to nonalgal particles, indicating less phytoplankton presence in the water column. The total particulate absorption is dominated by the nonalgal particles, of which the contribution rate is up to 50% of the total absorption, and Sg is higher than that in water bodies being investigated elsewhere. Positive correlation of the particles was observed within ap(440), ad(440) and total suspended mat-ter, inorganic suspended matter and organic suspended matter, respectively, while weak correlation was recorded in terms of chlo-rophyll-a( Chl. a) compared with results reported in literatures. In the current study, low correlations of the particles were observed within ag(440), Chl. a and dissolve dissolved organic carbon(DOC). This is probably due to the fact that more colorless DOCs are present in the Lake Xingkai. Absorption coefficient and water quality parameters showed insignificant difference between the Great Lake Xingkai and the Small Lake Xingkai, though the latter is greatly impacted by farmland irrigation discharge, fisheries and tourism sewage.