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摘 要 利用尼龙网袋法,盆栽模拟淹水土壤环境,研究南方常见绿肥紫云英、油菜和肥田萝卜的氮磷释放规律及其对淹水土壤酶活性的影响,绿肥翻压鲜重量为1.14 kg/m2。在97 d的试验周期内,绿肥腐解率表现为:肥田萝卜>紫云英>油菜。3种绿肥向土壤环境中释放氮速率由高到低为:肥田萝卜>油菜>紫云英,并促进了总氮由土壤→溶液的释放,且土壤溶液97 d氮的平均增加量达到显著水平(p<0.05)。磷的释放为:肥田萝卜>紫云英>油菜,其97 d土壤磷的平均增加量达到显著水平(p<0.05);绿肥翻压显著影响了土壤多酚氧化酶和转化酶活性(p<0.05)。同一种土壤酶在不同处理之间及同一处理条件下的不同酶之间均表现出显著的相关性(p<0.05),即土壤酶在促进物质转化中不仅显示其专性催化特性,同时也体现了共性关系。3种绿肥中肥田萝卜改善土壤酶活性作用最明显。
关键词 绿肥;腐解率;养分释放;酶活性
中图分类号 S553 文献标识码 A
Abstract The changes of nitrogen and phosphorus release and enzyme activity after ploughed green manure of milk vetch, rape and radish of 1.14 kg/m2 of each ina nylon bag were studied., The results showed that the decomposition rate was in the order radish> milk vetch> rape; The order of release rate of TN from the manure into soil was radish >rape >milk vetch, and the actions of release rate of TN from soil into soil solution were also accelerated and the effects reached to significant level(p<0.05); The release rate of TP from the manure into soil was also increased significantly, and the order was radish> milk vetch> rape. The effect of green manure on soil polyphenol oxidase and invertase were significant(p<0.05); The positive relationships between different green manure treatments based on the same enzyme activities were very high, at the same time, there were some significant correlations among different enzymes based on same treatment(p<0.05), which indicating that soil enzymes showed specific catalytic properties as well as isomorphic correlations; Among the three green manures, radish was the most important in improving soil enzyme activities.
Key words Green manure; Decomposition rate; Nutrient release; Enzyme activities
doi 10.3969/j.issn.1000-2561.2016.08.006
近年来,我国稻田肥料使用过程中,依旧存在化肥施用过量,有机肥施用严重不足,氮、磷、钾肥比例不科学等问题。而绿肥作为可再生生物资源,不仅能够作为南方稻田有机肥重要来源,为土壤提供大量的碳源和养分,还可以改善土壤性状,防止肥力下降,是实现稻田土壤可持续利用的有效途径[1]。我国绿肥资源丰富,其中油菜(Brassica campestris)、紫云英(Astragalus sinicus)和萝卜(Raphanus sativus)是我国南方最常见的绿肥作物,紫云英、肥田萝卜可采用直接还田、青贮和饲养还田相结合,发挥巨大经济效益[2]。绿肥翻压会影响碳、氮、磷、钾等元素的释放规律及土壤微生物活性[3]。要合理高效利用绿肥,明确绿肥的腐解矿化过程至关重要。绿肥材料翻压后的前期腐解速率普遍高于后期,且不同材料类型腐解速率和腐解程度也不同。潘福霞等[4]研究得出,绿肥翻压后的腐解率一般大于秸秆、厩肥等其他有机肥。土壤溶液一般定义为含有溶质和溶解性气体的土壤间隙水,是土壤化学反应主要场所,因此,评价稻田翻压绿肥系统的养分供应状况,研究土壤溶液理化特性尤为重要。不同绿肥材料向土壤溶液释放养分的能力是有所差异的,如袁嫚嫚等[5]研究证明,蚕豆还田处理土壤溶液总氮(TN)浓度高于紫云英还田处理。
本研究将围绕绿肥翻压后的腐解过程,氮、磷等释放特征以及相关酶活性变化展开研究,了解各翻压材料在土壤中的腐解动态特征和养分释放规律,以期为稻田绿肥的合理利用提供一定理论依据。
1 材料与方法
1.1 试验地与供试材料
试验地点为广东省广州市广东第二师范学院生物楼楼顶的种植大棚,供试土壤和材料采集于广东省清远市莲洲镇稻田,土壤及绿肥TN、TP含量见表1。