滇中富磷区与贫磷区云南松群落差异与土壤磷素研究

以同在滇中地区磷素差异较大的富磷区与贫磷区的云南松林群落及其土壤为研究对象,采用Sui修正后的Hedley磷素分级,研究了土壤磷素的有效磷特征和土壤其他养分因子,分析了2类云南松群落的结构及其差异。结果表明,富磷区土壤全磷含量显著高于贫磷区,虽然两地活性磷(H_(2)O—P_(i)、NaHCO_(3)—P_(i)和NaHCO_(3)—Po)含量都低于10%,但富磷区活性磷含量显著高于贫磷区,贫磷区有机磷含量高于无机磷含量,富磷区却相反;富磷区其他土壤养分如全氮、有机碳含量也显著高于贫磷区。富磷区云南松群落林木密度、Shannon-wiener指数、Simpson指数、Pielou指数均高于贫磷区云南松群落,而平均株高、平均胸径、冠幅低于贫磷区云南松群落。讨论认为,在贫磷区云南松与富磷区云南松群落的生长发育与营养策略有关,在磷素匮乏的地区,植物群落为了维持正常生长而进行紧密磷素循环,植物和微生物主要利用的磷素来自有机磷的矿化与溶解,并最大限度地减少生物地球化学循环的磷损失;但在磷素极其充沛的地区植物和微生物群落更加倾向将磷素从土壤矿石转移到生物地球化学磷循环中,对于当地植物和微生物来说,紧密的磷素回收就显得无关紧要。两地云南松群落结构的显著差异与地表磷素含量关系密切,富磷区因土壤磷含量丰富,并且引起其他营养资源丰富,从而能够维持更多种类的植物,同时相应地降低云南松在群落的生态优势;相应地贫磷区磷素成为限制因素,并且其他营养资源也相对短缺,从而不能支持更高水平的植物多样性,云南松因具有较强竞争力而生态优势更高。

滇池流域富磷区退化山地马桑-蔗茅植物群落的生态修复效能评价

滇池流域富磷区退化山地面源污染的防控是滇池富营养化综合治理的重点区域和关键环节。为了了解富磷区退化山地典型植物群落的生态修复效能,该文以马桑(Coriaria nepalensis)-蔗茅(Erianthus rufipilus)群落为例,从群落构建过程、优势种的面源防控能力、形成群落的面源污染防控效能三个方面对该群落的生态修复效能进行研究。结果表明,马桑、蔗茅及其形成的马桑-蔗茅群落均可有效地降低地表径流量,悬浮颗粒,及土壤氮、磷流失,但马桑、蔗茅种群数量水平低,种群之间不存在显著的空间关联性。基于以上研究结果,建议在后期的生态修复过程中,通过增加马桑、蔗茅的数量,使二者之间达到空间正关联性,群落结构的完善不仅可以有效地抑制紫茎泽兰(Eupatorium adenophorum)的入侵,还可以进一步提高对退化山地面源污染的防控效能。

云南滇池富磷区趋化性细菌的系统多样性

从云南滇池富磷区100份土样中筛选解磷细菌(PSB),通过组氨酸激酶编码基因(cheA)筛选趋化性PSB,并通过软琼脂平板法验证其趋化性;利用钼蓝比色法测定PSB对磷酸三钙的溶解能力;基于16SrRNA基因序列分析趋化性PSB的系统亲缘关系.结果表明:分离到的145株PSB的溶磷圈直径在0.5～2cm,其中37株为趋化性PSB.该37株PSB对供试的4种趋化底物均具有趋化性,而且对磷酸三钙均具有解磷活性.基于16SrRNA基因序列的系统发育分析显示,这37株趋化性PSB分属于10属,共17种细菌,其中假单胞菌属种类最多(5种9株),肠杆菌属次之(3种8株),芽孢杆菌属尽管只分离到1个种(Bacillusaryabhat-tai),但共分离到9个菌株.

不同坡地汇水区降雨径流磷元素流失研究

为探讨不同坡地汇水区内磷元素流失特征及差异,本研究在柴河小流域选取了4个有代表性的汇水区,测定了旱季、雨季表层土壤磷含量。结果表明,雨季表层土壤全磷含量高于旱季,有效磷含量除了人为影响较大的汇水区外,都是雨季低于旱季。

Phosphorus Loss from Dry Sloping Lands of Three Gorges Reservoir Area, China

Eutrophication in the Three Gorges Reservoir has become a serious issue, and phosphorus (P) is the nutrient thought to be primarily responsible although there are few studies about P loss from the mostly sloping farmlands of the area. This work investigated the amounts and forms of P loss from 9 farmlands with the slopes of 4°, 9°, and 17° in a small watershed, Wangjiagou in Fuling District, Chongqing of China. The slope of the relationship between runoff and rainfall increased with field slope; i.e., there was a significant interaction between the effects of rainfall and field slope on water export. For sediment export by surface runoff, there was no interaction between field slope and rainfall, and the intercept of the relationship between rainfall and sediment loss was significantly different for the 3 slopes. The main P loss was from sediments, regardless of slope. In the runoff water, particulate P was the largest P fraction, and its loss was greatest from the steepest land and least from the flattest. The release of total P and available P from sediments followed the same trend. The P loss during May to July in Wangjiagou was more than 60% of the annual total.