湖泊科学
湖泊科學
호박과학
JOURNAL OF LAKE SCIENCES
2015年
5期
776-782
,共7页
浮游植物%计数%丰度%生物量%多样性%浓缩法
浮遊植物%計數%豐度%生物量%多樣性%濃縮法
부유식물%계수%봉도%생물량%다양성%농축법
Phytoplankton%counting%abundance%biomass%diversity of species%concentrated water sample method
浮游植物是水生生态系统中重要的初级生产者,相对准确地定量它们的数量是进一步进行水质评价和生态功能分析的基础。通过采集处于不同营养状态的水库和不同处理的围隔中的浮游植物,研究影响浓缩法定量浮游植物的因素,了解如何通过浓缩法来合理地定量浮游植物。分析浓缩倍数、样品的显微镜计数量、水体营养状态对浮游植物丰度、生物量及群落多样性等定量参数稳定性的影响,同时比较单个不同水体中重复(或平行)样品之间浮游植物丰度的差别。结果表明,基于浮游植物的显微镜计数效率与定量数据稳定性的综合考虑,选择计数4片×10格/片即可基本保证定量数据的稳定性;在保证正常镜检的基础上,考虑水体营养状态适当增加浓缩倍数能够提高定量数据的可靠性;在特别依赖生物量或稀有种进行水质评价时,处于不同营养水平的水体均需要增加样品的平行数来提高定量数据的可靠性。
浮遊植物是水生生態繫統中重要的初級生產者,相對準確地定量它們的數量是進一步進行水質評價和生態功能分析的基礎。通過採集處于不同營養狀態的水庫和不同處理的圍隔中的浮遊植物,研究影響濃縮法定量浮遊植物的因素,瞭解如何通過濃縮法來閤理地定量浮遊植物。分析濃縮倍數、樣品的顯微鏡計數量、水體營養狀態對浮遊植物豐度、生物量及群落多樣性等定量參數穩定性的影響,同時比較單箇不同水體中重複(或平行)樣品之間浮遊植物豐度的差彆。結果錶明,基于浮遊植物的顯微鏡計數效率與定量數據穩定性的綜閤攷慮,選擇計數4片×10格/片即可基本保證定量數據的穩定性;在保證正常鏡檢的基礎上,攷慮水體營養狀態適噹增加濃縮倍數能夠提高定量數據的可靠性;在特彆依賴生物量或稀有種進行水質評價時,處于不同營養水平的水體均需要增加樣品的平行數來提高定量數據的可靠性。
부유식물시수생생태계통중중요적초급생산자,상대준학지정량타문적수량시진일보진행수질평개화생태공능분석적기출。통과채집처우불동영양상태적수고화불동처리적위격중적부유식물,연구영향농축법정량부유식물적인소,료해여하통과농축법래합리지정량부유식물。분석농축배수、양품적현미경계수량、수체영양상태대부유식물봉도、생물량급군락다양성등정량삼수은정성적영향,동시비교단개불동수체중중복(혹평행)양품지간부유식물봉도적차별。결과표명,기우부유식물적현미경계수효솔여정량수거은정성적종합고필,선택계수4편×10격/편즉가기본보증정량수거적은정성;재보증정상경검적기출상,고필수체영양상태괄당증가농축배수능구제고정량수거적가고성;재특별의뢰생물량혹희유충진행수질평개시,처우불동영양수평적수체균수요증가양품적평행수래제고정량수거적가고성。
Phytoplankton is a main primary producer, especially in pelagic ecosystems. Thus it needs to be well quantified for measuring its function and assessing water quality. To explore data quality of phytoplankton by the concentrated water sample meth-od which has been widely applied in China and other developing countries, phytoplankton samples were collected from three reser-voirs with distinct trophic levels and three treatment groups of experimental enclosures. The potential effects of the concentration ra-tios of water samples, counting volumes, replicates of water samples on the data quality were statistically analyzed. To balance the stability of data and counting efficiency under microscopy, we recommend to count 4 plates × 10 lattices for each plate. In the range of clearly and easily counting, increasing the concentration ratios of the water samples can improve precision and reliability of the quantitative data. When collecting multiple samples for counting is possible, especially those used for assessing the water quali-ty, replicates of water samples are strongly recommended to be collected in order to reduce the standard deviation.
