退化生态系统植被恢复过程中土壤微生物群落活性响应

通过分析退化生态系统中主要植被恢复类型对土壤微生物群落活性的影响,探讨敏感和可靠的微生物群落活性响应指标,揭示适合当地生态条件的植被恢复类型。结果表明,沙米荒地、白沙蒿、柠条、沙冬青和人工乔木林地土壤微生物量C,N,P和微生物商、蔗糖酶、脲酶、过氧化氢酶、碱性磷酸酶均表现出显著差异(P<0.05)。在土壤各层内,除上层人工乔木林地土壤微生物量N相对较高外,柠条恢复草地土壤微生物量C,N,P都相对较高,沙米荒地均较低;土壤微生物商没有明显的趋势;人工乔木林地蔗糖酶和柠条恢复草地脲酶活性相对较高,过氧化氢酶和碱性磷酸酶活性没有明显的变化趋势,沙米荒地的蔗糖酶、脲酶和过氧化氢酶活性以及白沙蒿草地碱性磷酸酶活性较低。方差分析(ANOVA)显示,蔗糖酶、脲酶、过氧化氢酶和碱性磷酸酶与土壤有机质、全氮以及微生物量C,N,P之间呈显著相关关系;主成分分析(PCA)表明,土壤微生物量N,C,P和蔗糖酶、土壤微生物商基本反映了研究区植被恢复中土壤微生物群落活性的响应信息。不同植被恢复类型草地中土壤微生物群落活性的变化表明,柠条和人工乔木林是研究区域内适合当地生态条件的植被恢复类型。     

潮土小麦和玉米Olsen-P农学阈值及其差异分析

【目的】磷农学阈值是指导不同作物磷肥用量并获取最佳经济产量的重要依据,然而,不同地区不同的耕作制度、土壤类型、作物种类、pH、温湿度条件下,作物的磷农学阈值不同。明确小麦–玉米轮作体系下,典型潮土区小麦和玉米的磷农学阈值,并分析其差异。【方法】本研究基于“国家潮土土壤肥力与肥料效益长期监测站”25年的定位试验,选取氮、钾肥施用充足和磷肥用量不同的NK (不施磷肥)、NPK (施用氮磷钾化肥)、NPKM (氮磷钾化肥和有机肥配施)、1.5NPKM (高量氮磷钾化肥配施有机肥)、NPKS (氮磷钾化肥与玉米秸秆还田配施) 5个处理的试验数据,使用米切里西指数模型 (Mitscherlich exponential model) 拟合小麦和玉米的Olsen-P农学阈值,并通过对比不同土壤磷水平下两种作物的磷吸收利用特性,分析其阈值不同的原因。【结果】获得最大相对产量的95%时,潮土区小麦Olsen-P农学阈值为13.1 mg/kg,玉米Olsen-P农学阈值为7.5 mg/kg。玉米Olsen-P农学阈值低于小麦主要原因:1) 土壤磷水平较低时,小麦对磷缺乏更为敏感,而玉米可保持相对较强的吸磷能力,25年不施磷处理玉米吸磷量是小麦的1.4倍;2) 土壤Olsen-P含量达到玉米阈值,而未能达到小麦阈值时,可保障玉米籽粒、茎秆及小麦籽粒正常生长对磷的需求,但小麦茎秆磷浓度仅能达到相对最大磷浓度的68.9%,严重影响了小麦的正常生长和获取较高产量的能力;土壤Olsen-P含量提高到小麦阈值后,小麦茎秆磷浓度提高到相对最大磷浓度的80.5%以上,进而可保障小麦获得较高的产量;3) 土壤磷素养分充足时,小麦对磷的吸收量大于玉米,且主要是由于小麦茎秆磷浓度和吸磷量随土壤Olsen-P含量的增加而大幅度增加。【结论】小麦和玉米作为典型潮土区两种重要的粮食作物,Olsen-P农学阈值分别为13.1和7.5 mg/kg。由于两种作物的生理特性不同,小麦对磷素的吸收利用率较低,茎秆需要较高的土壤磷浓度维持正常生长,产量形成对磷养分需求更大。因此,小麦–玉米轮作体系下,小麦的磷农学阈值更高,小麦季所需土壤磷供应量大于玉米季。为增强磷肥利用效率,减少磷肥投入量和土壤中磷素的过量累积,玉米季磷肥使用量应适当小于小麦季。当土壤Olsen-P水平高于作物磷农学阈值后,减少或短时间停止施用磷肥并不会对作物产量有明显影响。     

Composts Vary in Their Effect on Soil P Pools and P Uptake by Wheat

With diminishing world reserves of phosphorus (P) deposits and rising fertilizer prices, it is important to find alternate sources of P for crops. The aim of this research was to evaluate the effect of four different composts C1 (animal manure and straw), C2 (garden waste), C3 (wood chips and bark), and C4 (kitchen waste) on soil P pools and P uptake by wheat on 14, 28, and 72 days after compost application. The composts were applied as a 2.5 cm thick layer on the soil surface. During sampling, only the soil underlying compost was sampled. Soil pH and total organic carbon were not affected by the amendments. Soil respiration was significantly higher in compost-amended soils compared with the unamended soil except with C4 on day 72. Addition of composts increased plant growth, and P uptake being highest on day 72 with C1 and C4. With little effect on available P concentration on day 14, there was a conversion of organic P into inorganic P in the compost treatments suggesting net mineralization of organic P on day 28. On day 72, the concentrations of the less labile P forms were higher in the compost treatments compared with the unamended suggesting precipitation and fixation as well as synthesis of organic P. This study showed that mulching with composts having high available and total P concentrations can provide plants with P and also increase soil P concentrations which could reduce the fertilizer requirement for the following crop.     

等高反坡阶对滇中云南松林乔木层碳储量及碳增量分配格局的影响

通过标准地调查和生物量实测相结合的方法,对布设等高反坡阶后滇中云南松林乔木层碳含量、生物量、碳储量及分配特征进行了估算,并分析了8年后各器官碳增量及分配格局特征。结果表明:布设等高反坡阶后云南松各器官碳含量变幅为41.01%～47.35%,平均碳含量高低排列依次为干叶枝皮粗根中根细根。10～15龄的云南松林在布设等高反坡阶后地上部分总生物量比对照高32.75%,等高反坡阶显著提高了10～15龄和15～30龄地下部分生物量(30.73%和35.71%),总生物量随着龄组的增加而显著增加。等高反坡阶显著提高了10～15龄云南松林地上部分碳储量(32.79%)和15～30龄地下部分碳储量(35.60%);布设等高反坡阶8年后显著增加了10～15龄、15～30龄地上部分碳增量(53.33%和20.45%)和地下部分碳增量(53.70%和73.43%)。综上,人工造林时应对等高反坡阶予以高度关注,适度发展等高反坡阶措施,在等高反坡阶基础上因地制宜地进行人工造林,增加山地造林面积和植被碳储量,从而保护当地生态环境。     

基于微生物燃料电池供能的无线温度传感系统设计

微生物燃料电池(microbial full cell,MFC)是利用微生物作为生物催化剂将碳水化合物转化为电能的装置。针对MFC输出电压低、功率小、内阻大的特点,该文研制了一种具有最大功率点跟踪(maximum power point tracking,MPPT)功能的能量收集电路和两级升压电路;基于MSP430和CC2500芯片设计了环境温度传感系统。测试结果表明,MFC的输出电压维持在316～390 mV范围内,实现了最大输出功率的跟踪,MPPT电路和升压电路分别输出1.1和3.5 V电压;无线温度传感器以每13ms的周期将环境温度无线传输到远程终端,验证了环境温度传感系统在最大功率点处对无线传感器网络节点供电工作的可行性,可为实现MFC主动式能量收集提供参考。     

复合微生物菌剂对棉花生理特性及根际土壤 微生物和化学性质的影响

为了系统地阐述复合微生物菌剂在改善土壤化学性质、生物学性质和促进植物生长方面的效果及机理,采用盆栽试验,研究常规和灭菌条件下不同用量的微生物菌剂对棉花生长、生理代谢、根际土壤生物学特性和养分含量的影响。结果表明:施用复合微生物菌剂能够提高苗期棉花叶片光合色素总量,叶片和根系内抗氧化物酶(SOD、POD、CAT)活性,降低过氧化物质含量(MDA、O2·-),进而提高了棉花的光合性能和抗氧化能力;降低了土壤pH,提高了根际土壤细菌和放线菌数,而降低了根际土壤真菌数,同时提高了根际土壤脲酶、中性磷酸酶、蔗糖酶和脱氢酶活性,最终提高了根际土壤有效养分和有机质含量,改善了根际微域环境,促进了棉花苗期生物量的累积和抗病性。除根际土壤养分含量外,常规复合微生物菌剂对各指标的改善效果优于灭菌复合微生物菌剂,且用量为10L/667m2时效果较明显。因此,复合微生物菌剂可通过改变土壤pH,改善根际土壤微生物群落的数量和结构来改变土壤酶活性和有效养分含量,优化根际生长环境,增强植物抗逆性和光合能力,最终实现养地增产的效果。此外,复合微生物菌剂中的有益活菌在改土、促生方面具有极其重要的积极效应。     

Root development of winter wheat in erosion‐affected soils depending on the position in a hummocky ground moraine soil landscape

Agricultural soil landscapes of hummocky ground moraines are characterized by 3D spatial patterns of soil types that result from profile modifications due to the combined effect of water and tillage erosion. We hypothesize that crops reflect such soil landscape patterns by increased or reduced plant and root growth. Root development may depend on the thickness and vertical sequence of soil horizons as well as on the structural development state of these horizons at different landscape positions. The hypotheses were tested using field data of the root density (RD) and the root lengths (RL) of winter wheat using the minirhizotron technique. We compared data from plots at the CarboZALF‐D site (NE Germany) that are representing a non‐eroded reference soil profile (Albic Luvisol) at a plateau position, a strongly eroded profile at steep slope (Calcaric Regosol), and a depositional profile at the footslope (Anocolluvic Regosol). At each of these plots, three Plexiglas access tubes were installed down to approx. 1.5 m soil depth. Root measurements were carried out during the growing season of winter wheat (September 2014–August 2015) on six dates. The root length density (RLD) and the root biomass density were derived from RD values assuming a mean specific root length of 100 m g^?1. Values of RD and RLD were highest for the Anocolluvic Regosol and lowest for the Calcaric Regosol. The maximum root penetration depth was lower in the Anocolluvic Regosol because of a relatively high and fluctuating water table at this landscape position. Results revealed positive relations between below‐ground (root) and above‐ground crop parameters (i.e., leaf area index, plant height, biomass, and yield) for the three soil types. Observed root densities and root lengths in soils at the three landscape positions corroborated the hypothesis that the root system was reflecting erosion‐induced soil profile modifications. Soil landscape position dependent root growth should be considered when attempting to quantify landscape scale water and element balances as well as agricultural productivity.     

高寒草甸土壤微生物功能多样性对氮肥添加的响应

采用Biolog-ECO生态板法研究了4个施N水平[0 g/m²（CK）,10 g/m²（N₁₀）,20 g/m²（N₂₀）,30 g/m²（N₃₀）]下土壤理化性质和微生物功能多样性的变化规律。结果表明:中高水平氮肥添加显著增加了速效氮、速效磷含量和根土比,但降低了土壤含水量。施N肥0-10 cm土层平均颜色变化率降低,而10-20 cm土层则被提高,且N₂₀最大。施N肥后降低了0-10 cm土层土壤微生物Shannon-Wiener指数、Pielou指数和McIntosh指数,但10-20 cm土层则被提高。PCA分析表明,施N肥改变了土壤微生物代谢功能类型,糖类、氨基酸、酸类是土壤微生物主要利用的碳源类型。RDA分析表明,在0-10 cm土层,土壤含水量和全氮是影响土壤微生物功能多样性的主要因子,而10-20 cm土层主要受土壤含水量和速效磷的影响。综上,施N肥增加了土壤的有效养分含量,进而改变土壤微生物功能多样性、碳源利用能力和数量。     

辐照对瓜实蝇遗传区性品系成虫肠道微生物的影响

为研究辐照对瓜实蝇肠道微生物群落多样性和结构组成的影响,以100 Gy137Cs辐照来自瓜实蝇遗传区性品系(GSS)的5、8、11和13日龄的雌、雄成虫,并采用Illumina MiSeq测序技术分别对其肠道菌群进行测序分析。结果表明,瓜实蝇雌雄成虫的肠道中存在19个主要的菌属,包括17个属名已知,1个属名未知和1个属不可培养。其中,17个已知属分别属于4个细菌门,即变形菌门(Proteobacteria)(占总量的50%~98%)、厚壁菌门(Firmicutes)(占总量的2%~47%)、拟杆菌门(Bacteroidetes)(占总量的1%~16%)和1个至今微生物界还未确定的稀少菌门(unclassified rare phyla)(总量1%)。此外,辐照降低了瓜实蝇肠道中的微生物多样性以及优势菌的丰富度,且这种影响与瓜实蝇的性别和成虫日龄无关。本研究结果为评估和修复辐照对瓜实蝇的损伤提供了参考。     

长期施用氮磷肥对(土娄)土钾素的影响

以长期定位施肥与小麦一玉米轮作田间试验为平台,研究了施肥对(土娄)土土壤钾素的影响以及冬小麦生育期内(土娄)土土壤速效钾、缓效钾及微生物量钾的变化.结果表明:氮磷肥不同施用量对土壤全钾基本没影响,而对速效钾、缓效钾及微生物量钾的影响较大.土壤速效钾和缓效钾均随施肥量的增加而减少,而微生物量钾随施肥量的增加而增加,且0-20 cm土层土壤速效钾、缓效钾及微生物量钾含量均高于20-40 cm土层.小麦生育期内,土壤速效钾和微生物量钾含量的变化一致,均是先上升再下降,再上升,又下降的变化.土壤中微生物量钾与有机碳、全氮均呈显著正相关关系,而与土壤速效钾和缓效钾无显著相关关系.氮磷肥在一定施用量范围内,促进了土壤无机态钾素的消耗,而提高了土壤微生物量钾的含量.土壤钾素的这种变化是作物吸收、施肥等因素共同作用的结果.