土壤铅和镉溶出伏安法检测中影响因素及其削弱方法研究进展

溶出伏安法具有分析速度快、成本低、灵敏度高等优点被广泛应用于检测土壤重金属含量，但在检测土壤重金属时，溶出伏安检测精度会受到多方面因素的影响。该文在介绍溶出伏安法工作原理的基础上，从伏安参数、试验条件和土壤物质成分三方面阐述溶出伏安法检测土壤Pb2+和Cd2+为的影响因素，解析各因素的影响机理，归纳影响削弱方法的研究进展。研究结论为：方波脉冲阳极溶出伏安法最常用于检测土壤Pb2+和Cd2+，伏安参数包括脉冲幅值、电压增量和脉冲频率，试验条件包括沉积时间、沉积电压和支持电解质种类及其pH值，土壤成分主要干扰因素包括非目标重金属和有机质。针对伏安参数和试验条件的影响可以设计优化试验有效削弱。针对非目标重金属和有机质的干扰影响，目前研究还没有提出有效的削弱方法。最后，展望了溶出伏安法检测土壤重金属的未来发展方向。     

播种深度对花生生育进程和叶片衰老的影响及其生理机制

在春播、土壤水分适宜以及起垄覆膜种植模式条件下,选用大花生品种山花108,设置3、5、7、9、11、13和15 cm (SD3、SD5、SD7、SD9、SD11、SD13和SD15) 7种播种深度,研究播种深度对花生生育进程、叶绿素含量、光合性能、干物质积累量、抗氧化酶活性及产量形成的影响。2年结果表明,播种深度明显影响花生出苗时间,与SD5处理相比, SD15处理的出苗期推迟5 d,产量形成期缩短2.5 d。播深过浅(3 cm)或过深(7 cm)显著降低了植株主茎高和侧枝长,导致叶面积指数(LAI)显著降低;且降低了产量形成期叶片叶绿素含量和光合速率,导致植株干物质积累量显著降低。播种过深(7cm)显著降低了产量形成期叶片可溶性蛋白含量和超氧化物歧化酶(SOD)及过氧化物酶(POD)活性,丙二醛(MDA)含量显著提高,导致叶片膜脂过氧化加剧。各播深处理相比,SD5处理的荚果和籽仁产量较高,主要是由于其单株结果数、单果重及出仁率的提高,播种深度超过7 cm后,减产显著。因而,春花生适宜的播种深度应控制在5 cm。     

基质深度及基质袋摆放方式对春季袋培番茄产量、品质和养分吸收的影响

为探究不同栽培深度基质和基质袋摆放对春季袋培番茄产量、品质、养分吸收和基质养分利用率的影响,以‘巴宝丽’番茄为试材,设置不同基质深度(7.5、10.5和13.5cm)及基质袋不同摆放方式(地面摆放和地面下沉20cm),共6个处理,测定了番茄的生长发育、产量、品质和养分吸收等指标。结果表明:栽培基质深度对产量、果实品质均有显著影响;基质袋摆放方式对产量影响不显著,但显著影响果实可溶性蛋白、番茄红素、硝酸盐和有机酸含量;基质深度和基质袋摆放方式对果实硝酸盐含量的影响有显著的交互作用。随着栽培基质深度的增加,产量显著提高,品质明显改善;基质深度13.5cm时,番茄单株产量最高,达3.83kg/株。基质袋摆放方式和基质深度对番茄开花期、初果期及盛果期P和K的累积吸收影响显著,基质深度对番茄开花期、初果期和盛果期N的吸收也有显著影响,基质深度和基质袋摆放方式对开花期和初果期番茄植株N、P和K的累积吸收存在显著的交互作用。基质内N、P和K养分利用率均是基质深度为13.5cm的处理最高,且不同基质袋摆放方式对基质养分利用率无显著影响。综上,为实现省工省力且高产优质载培,在实际生产中推荐将春季栽培番茄的基质深度设置为13.5cm(即基质供应量为9L/株)且地面摆放。     

开沟起垄措施对植烟土壤和烟叶产值的影响

为探明烟稻轮作制度下,烟田起垄开沟对植烟土壤化学性质及烟株生长、产质量等影响,以稻茬烟田为试验平台,设置2个开沟深度[A1：浅沟（垄间开沟15cm）;A2：深沟（垄间开沟25cm）]和2个起垄时间[B1：移栽前10d起垄（常规起垄）;B2：翻耕后起垄],于2018年取样,系统分析不同处理对土壤pH、主要养分含量和烟株农艺性状、干物质积累及经济性状的影响。研究结果表明,烟株各个主要生育时期深沟+翻耕后起垄处理（A2B2）的有效叶片数、烟叶最大叶长、叶宽和株高均优于其他处理;且该处理能有效改善土壤速效养分含量,土壤pH处于优质烤烟生产要求范围;同时烟株物质生产能力强,干物质积累多,在各器官间分配合理;烤烟经济性状也表现为该处理的烟叶产量、产值及上等烟比例较高,表现较优。总之,翻耕后起垄+深开沟处理（A2B2）有利于烟株生长,提高烟株的品质,为烟叶优质适产奠定了生物学基础。     

Variation in glomalin in soil profiles and its association with climatic conditions,shelterbelt characteristics,and soil properties in poplar shelterbelts of Northeast China

Glomalin-related soil protein(GRSP)sequesters large amounts of carbon and plays important roles in maintaining terrestrial soil ecosystem functions and ecological restoration;however,little is known about GRSP variation in 1-m soil profiles and its association with stand characteristics,soil properties,and climatic conditions,hindering GRSP-related degraded soil improvement and GRSP evaluation.In this study,we sampled soils from 1-m profiles from poplar(Populus spp.)shelterbelts in Northeast China.GRSP contents were 1.8–2.0 times higher in the upper 40 cm soil layers than at 40–100 cm.GRSP-related soil organic carbon(SOC)sequestration in deeper soil layers was*1.2 times higher than in surface layers.The amounts of GRSP-related nutrients were similar throughout the soil profile.A redundancy analysis showed that in both surface and deeper layers,soil properties(pH,electrical conductivity,water,SOC,and soil nutrients)explained the majority of the GRSP variation(59.5–84.2%);the second-most-important factor in GRSP regulation was climatic conditions(temperature,precipitation,and altitude),while specific shelterbelt characteristics had negligible effects(<5%).Soil depth and climate indirectly affected GRSP features via soil properties,as manifested by structural equation model analysis.Our findings demonstrate that GRSP is important for carbon storage in deep soils,regardless of shelterbelt characteristics.Future glomalin assessments should consider these vertical patterns and possible regulating mechanisms that are related to soil properties and climatic changes.     

不同因素影响下层状土壤水分入渗特征及水力学参数估计

层状土壤是自然界常见的土体结构,其水分运移规律不同于均质土;大气降水、灌溉水等水分的入渗是土壤水文过程的一个重要环节,同时它也与地下水补给、污染物运移等过程紧密相关。土壤初始含水量、土体构型及供水强度等因素均会影响水分的入渗过程。为探究积水深度、土体构型、初始含水量三种因素对层状土壤水分运移的影响,通过室内积水入渗试验对湿润锋、累积入渗量、土壤剖面压力水头进行观测,并利用Hydrus-1D模型反演水力参数并对相应条件下的水分运移规律进行模拟和分析。结果表明,层状土壤中湿润锋随时间的推进方式由非线性过渡至线性,入渗率逐渐减小。三种因素作用下,层状土壤水分运移特征有明显差异:积水深度、土壤初始含水量增加时,湿润锋运移速率和入渗率均增大,且各观测点压力水头升高加快,土壤不饱和程度降低;上砂壤下粉砂壤构型较上粉砂壤下砂壤构型而言,整体湿润锋推进速率和入渗率较大,出流快,且入渗后期界面处的压力水头高于其他观测点。且结果表明,反演的水力学参数较拟合实测的参数更适用于层状土壤入渗的模拟和预测。该研究旨在揭示和掌握层状土壤水分运移规律和影响因素的作用机制,并进一步为农田灌溉措施的合理制定提供科学依据。     

不同剥制机械对苎麻纤维产量及品质的影响

为明确不同纤维剥制机械对苎麻纤维产量和品质的影响，以苎麻品种‘中苎3号’为试验材料，研究了3种剥制机械（简易刮麻器、回拉式剥麻机、反拉式剥麻机）对原麻颜色、出麻率、单纤维强力和含胶量的影响。结果表明，不同机械剥制原麻产量与品质存在显著差异。3种机器剥制的原麻颜色均偏黄色，简易刮麻器剥制的麻纤维明度最亮，反拉式剥麻机剥制的原麻红色最深。简易刮麻器剥制麻与回拉式剥麻机剥制麻出麻率无显著差异，显著低于反拉式剥麻机剥制麻，但反拉式剥麻机出麻率较高,原因主要是总胶质含量显著较高（28.21%）。不同剥制机械所获原麻的单纤维强力也存在显著差异，由高到低依次为简易刮麻器＞回拉式剥麻机＞反拉式剥麻机。综上所述，简易刮麻器剥制原麻质量最好，回拉式剥麻机优于反拉式剥麻机。上述结果为苎麻剥麻机的选择提供理论依据。     

4种荒漠植物种子出苗和幼苗生长对沙埋深度的响应

通过室内试验测定了黑果枸杞、沙冬青、沙蒿、霸王4种荒漠植物的种子生理特征以及沙埋深度（0、1、2、3、4、5 cm）对4种荒漠植物种子出苗及幼苗生长的影响。结果表明，体积较大的沙冬青和霸王种子萌发率与其重量、含水量、形状及活性间存在正相关关系；体积较小的黑果枸杞、沙蒿萌发率与种子重量、含水量、形状之间为正相关关系，与种子活性负相关。随着沙埋深度增加，4种植物种子出苗率下降、首次出苗时间延迟，茎高、绝对株高和根长及根冠比总体呈先增大后减小的趋势；幼苗生长方面，黑果枸杞和沙蒿分别适宜于1～2、0～1 cm的浅层沙埋，均在沙埋深度5 cm时种子几乎不萌发；沙冬青、霸王则适宜于3～4 cm较深层沙埋，在沙埋0 cm时均不萌发。此外，在荒漠区采用这4种植物进行植被恢复时，除考虑种子自身性状外，还应充分考虑当地的沙埋、降雨等条件，以提高出苗率、增大幼苗定植率。     

Effects of AG1 and AG2 QTLs on Nonstructural Carbohydrate and Seed Management Options for Rice Seedling Growth and Establishment under Flooding Stress

Rice (Oryza sativa) plants acquired excess photosynthates in the form of nonstructural carbohydrates (NSCs) in their stems and grain. Despite keen interest in rice NSC, the dynamics of NSC accumulation, translocation and re-accumulation have not yet been well investigated. AG1 and AG2 QTLs associated with flooding tolerance through catalyzing starch into soluble sugar in germinating seeds. Here we conducted three experiments, greenhouse and field to lay the groundwork for large-scale diversity studies on grain NSC and some agronomic traits under direct-seeded rice (DSR) system, using elite lines incorporating AG1, AG2 and AG1-AG2 QTLs into the popular varieties PSB Rc82 and Ciherang-Sub1 along with the donors Kho Hlan On (AG1) and Ma-Zhan Red (AG2). In germinating seedlings, soluble sugars increased, while starch concentration decreased gradually especially in the tolerant checks and AG1-AG2 introgression lines under flooded soil. Soluble sugar accumulation in stem started to increase from the vegetative stage and peaked at the panicle initiation stage then gradually decreased towards the maturity stage. But Sub1-AG lines had higher sugar and starch concentrations at different growth stages than other genotypes in wet season 2016 and dry season 2017. Plant survival rate was positively correlated with the stem NSC at the early vegetative stage (21 days after sowing), and stem NSC was positively associated with plant height at different growth stages. Among the tested seeding rate, the most suitable seeding rate, 4 g/m² with shallow burial depth (0.5 cm), resulted in better seedling establishment, relatively higher seedling vigor index and higher leaf area index under flooding in DSR system. Introgression of AG1-AG2 QTLs had no any negative impact on nonstructural carbohydrate, germination rate, and growth and biomass production.