生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
2期
289-294
,共6页
陈家长%王菁%裘丽萍%孟顺龙%范立民%宋超
陳傢長%王菁%裘麗萍%孟順龍%範立民%宋超
진가장%왕정%구려평%맹순룡%범립민%송초
普通小球藻%鱼腥藻%pH%种间竞争
普通小毬藻%魚腥藻%pH%種間競爭
보통소구조%어성조%pH%충간경쟁
Chlorella vulga%Anabaenasp.strain PCC%pH%interspecies competition
pH值是藻类生长环境的重要理化指标,它可以通过改变环境酸碱度和碳酸盐平衡系统及不同形态无机碳分配关系来影响藻类的生长。为揭示水体中常见藻类的生长过程及其与pH的相互关系,设置了6.0,7.0,8.0和9.0等4个pH梯度,通过室内实验模拟水体条件,研究不同pH条件下主要水华藻类--鱼腥藻(Anabaena sp.strain PCC)和常见淡水藻类--普通小球藻(Chlorella vulga)的生长和种间竞争。结果表明,无论是在单种培养还是在共同培养体系中,4个pH条件下两种藻类的最大生物量差异显著(P<0.05),鱼腥藻和普通小球藻的最适pH均为9.0,其中单种培养时鱼腥藻和普通小球藻的最大生物量分别为4473.5×104,689.6×104 cells·mL-1;共同培养时鱼腥藻和普通小球藻的最大生物量分别为2798.0×104,296.5×104 cells·mL-1。竞争试验结果表明,pH对藻类种间竞争抑制参数能够产生显著影响,pH 7.0时普通小球藻对鱼腥藻的竞争抑制参数(β)最大,为12.91;鱼腥藻对普通小球藻的竞争抑制参数(α)则是pH 6.0时最大,为1.778。在4个pH条件下普通小球藻对鱼腥藻的竞争抑制参数(β)均大于鱼腥藻对普通小球藻的竞争抑制参数(α),与单种培养相比,鱼腥藻最大藻细胞数受到明显削弱,说明普通小球藻在竞争中占优势。因此,在水产养殖过程控制和精准培水技术研究,以及控制养殖水体富营养化的过程中,可以通过调节养殖水体pH值以及普通小球藻的浓度来控制鱼腥藻的生长。
pH值是藻類生長環境的重要理化指標,它可以通過改變環境痠堿度和碳痠鹽平衡繫統及不同形態無機碳分配關繫來影響藻類的生長。為揭示水體中常見藻類的生長過程及其與pH的相互關繫,設置瞭6.0,7.0,8.0和9.0等4箇pH梯度,通過室內實驗模擬水體條件,研究不同pH條件下主要水華藻類--魚腥藻(Anabaena sp.strain PCC)和常見淡水藻類--普通小毬藻(Chlorella vulga)的生長和種間競爭。結果錶明,無論是在單種培養還是在共同培養體繫中,4箇pH條件下兩種藻類的最大生物量差異顯著(P<0.05),魚腥藻和普通小毬藻的最適pH均為9.0,其中單種培養時魚腥藻和普通小毬藻的最大生物量分彆為4473.5×104,689.6×104 cells·mL-1;共同培養時魚腥藻和普通小毬藻的最大生物量分彆為2798.0×104,296.5×104 cells·mL-1。競爭試驗結果錶明,pH對藻類種間競爭抑製參數能夠產生顯著影響,pH 7.0時普通小毬藻對魚腥藻的競爭抑製參數(β)最大,為12.91;魚腥藻對普通小毬藻的競爭抑製參數(α)則是pH 6.0時最大,為1.778。在4箇pH條件下普通小毬藻對魚腥藻的競爭抑製參數(β)均大于魚腥藻對普通小毬藻的競爭抑製參數(α),與單種培養相比,魚腥藻最大藻細胞數受到明顯削弱,說明普通小毬藻在競爭中佔優勢。因此,在水產養殖過程控製和精準培水技術研究,以及控製養殖水體富營養化的過程中,可以通過調節養殖水體pH值以及普通小毬藻的濃度來控製魚腥藻的生長。
pH치시조류생장배경적중요이화지표,타가이통과개변배경산감도화탄산염평형계통급불동형태무궤탄분배관계래영향조류적생장。위게시수체중상견조류적생장과정급기여pH적상호관계,설치료6.0,7.0,8.0화9.0등4개pH제도,통과실내실험모의수체조건,연구불동pH조건하주요수화조류--어성조(Anabaena sp.strain PCC)화상견담수조류--보통소구조(Chlorella vulga)적생장화충간경쟁。결과표명,무론시재단충배양환시재공동배양체계중,4개pH조건하량충조류적최대생물량차이현저(P<0.05),어성조화보통소구조적최괄pH균위9.0,기중단충배양시어성조화보통소구조적최대생물량분별위4473.5×104,689.6×104 cells·mL-1;공동배양시어성조화보통소구조적최대생물량분별위2798.0×104,296.5×104 cells·mL-1。경쟁시험결과표명,pH대조류충간경쟁억제삼수능구산생현저영향,pH 7.0시보통소구조대어성조적경쟁억제삼수(β)최대,위12.91;어성조대보통소구조적경쟁억제삼수(α)칙시pH 6.0시최대,위1.778。재4개pH조건하보통소구조대어성조적경쟁억제삼수(β)균대우어성조대보통소구조적경쟁억제삼수(α),여단충배양상비,어성조최대조세포수수도명현삭약,설명보통소구조재경쟁중점우세。인차,재수산양식과정공제화정준배수기술연구,이급공제양식수체부영양화적과정중,가이통과조절양식수체pH치이급보통소구조적농도래공제어성조적생장。
Chlorella vulga is a common freshwater algae and Anabaenasp.strain PCC is one of the most common blue-green algae in eutrophication lakes. The pH value is an important physical and chemical indicator of algae growing environment. The growth of algae could be affected by pH value, carbonate balance system and Distribution of inorganic carbon. In order to know the growth of water bloom blue-green algae in eutrophication lakes and the relationship between algae growth and pH, the experiment was carried out to investigate the interspecies competition between Chlorella vulga and Anabaenasp.strain PCC at different pH value. The test set up 4 pH gradients at 6.0, 7.0, 8.0, 9.0. The results indicated that Chlorella vulga and Anabaenasp.strain PCC grew best at pH 9.0 both in the uni-culture system and the co-culture system. The maximal biomass of Anabaenasp.strain PCC was 4 473.5×104 cells?mL-1 in uni-culture system and 2 798.0×104 cells?mL-1 in co-culture system. While the maximal biomass of Chlorella vulga was 689.6×104 cells?mL-1 and 296.5×104 cells?mL-1 accrdingly. The inhibition parameter of interspecies competition could be significantly influenced by pH(P<0.05). The maximal inhibition parameter of Anabaenasp.strain PCC against Chlorella vulga was found at pH 6.0 and the number was 1.778. The maximal inhibition parameter of Chlorella vulga against Anabaenasp.strain PCC was found at pH 7.0 and the number was 12.91. The inhibition parameters of Chlorella vulga against Anabaenasp.strain PCC were larger than that of Anabaenasp.strain PCC against Chlorella vulga at each pH, which meant that the inhibition effects of Chlorella vulga on Anabaenasp.strain PCC were stronger than that of Anabaenasp.strain PCC on Chlorella vulga. In aquaculture, therefore, we can adjust the pH value of aquatic water and the concentration of the ordinary Chlorella vulga to control algae growth, both in aquaculture process control, accurate water technology research, and process control of aquaculture water eutrophication.