养分管理措施对干热河谷火龙果土壤肥力的影响

为阐明火龙果地不同养分管理方式下土壤矿质养分变化特征，揭示土壤肥力质量变化规律，设置施用农家肥（farmyard manure，FM）、套种绿肥（alfalfa，AF）、施用生物有机肥（bio-organic fertilizer，BOF）与凋落物覆盖（litter coverage，LC）4种养分管理方式，通过分析不同处理的土壤肥力指标变化，明确不同养分管理方式对火龙果地土壤肥力质量的影响。结果表明：不同养分管理方式的土壤理化性质变化规律各异，在LC方式下pH低于7，呈弱酸性，其余养分管理方式下均呈弱碱性；LC对土壤有机碳（soil organic carbon，SOC）、有效磷（available phosphorus，AP）、有效锰（available manganese，AMn）、有效铁（available iron，AFe）等土壤养分增效显著，AF对SOC、全氮（total nitrogen，TN）、全钾（total potassium，TK）增效作用较弱，FM以及BOF下SOC及多数有效态元素含量相对较低；土壤速效养分受到pH的影响较大，大量元素与微量元素多呈极显著正相关；不同养分管理方式的土壤质量综合指数表现为，LC（1.793）>AF（0.949）>FM（-0.995）>BOF（-1.747）。LC为土壤养分积累较为适宜的管理方式，其次为AF，FM次之，BOF对土壤养分的积累效应最低，但其对提高作物产量具有较好的作用。     

土壤微生物生物地理学：国内进展与国际前沿

土壤微生物生物地理学是研究土壤中微生物空间分布格局及其随时间变化的一门科学,是土壤微生物学和微生物生态学等领域的研究前沿。近年来,尽管土壤微生物生物地理学研究取得了巨大进展,目前仍面临诸多难题与挑战。本文简要回顾了土壤微生物生物地理学的发展历程,重点介绍近年来我国在森林、草地和农田生态系统中土壤微生物生物地理学研究的主要进展。同时进一步阐述了目前土壤微生物生物地理学研究的国际前沿方向,包括微生物群落空间分布及其驱动机制、群落构建过程与共存网络、微生物地理分布与生态系统功能的关联以及预测微生物群落对全球变化的响应。最后,对土壤微生物生物地理学未来的研究方向进行了展望,强调了清晰的微生物物种定义、微生物群落的时间动态、多组学与合成生物学技术以及高精度的预测模型在土壤微生物生物地理学研究中的重要性。     

Residual effects of soil Zn fertilization on soil characteristics,yield and quality of Platycodon grandiflorum

ABSTRACT

Zinc (Zn) deficiency is common worldwide and is a major limiting factor in the cultivation of Platycodon grandiflorum because most P. grandiflorum is cultivated on soils with slight or severe levels of Zn deficiency in China. To investigate the effects of soil Zn fertilization on P. grandiflorum and its residual effects on soil characteristics, a randomized complete block design was conducted at the experimental station of Shandong Agricultural University China in 2016–2018. In 2016, ZnSO₄ · 7H₂O was used as Zn fertilizer. The fertilizer levels of Zn fertilizer were designed as 0, 4, 6, 8 and 10 kg ha^?1 and were denoted as CK, Zn₄, Zn₆, Zn₈ and Zn₁₀. No Zn fertilizer was used in 2017 and 2018. The results showed that soil Zn fertilization increased the quantity of soil bacteria, and actinobacteria, Zn₈ and Zn₁₀ treatments increased the soil fungal quantity in 2017, whereas the effect was observed only in the Z₁₀ treatment in 2018. Soil Zn fertilization enhanced the activity of polyphenol oxidase, decreased that of phosphatase, and did not influence the invertase activity in both 2017 and 2018. Both the yield and the quality of P. grandiflorum in the succeeding three years increased due to the soil Zn fertilization in 2016. Overall, soil Zn application is a suitable approach to the cultivation of P. grandiflorum, and the residual effects of a one-time soil Zn fertilization could last at least two years.     

浅谈“十四五”土壤肥力与土壤养分循环分支学科发展战略

土壤肥力与土壤养分循环分支学科是土壤学科中应用性较强的学科,悠久的发展历史积累了极为丰富的文献资料,在评价和利用土壤资源,提高作物产量和养分利用率,减少环境污染中发挥着重要作用。"十四五"期间土壤肥力与土壤养分循环分支学科应加强土壤养分转化过程、速率、产物及其影响因素的基础性研究。鉴于我国大宗作物种植强度下降,集约化设施种植面积增加的两极化发展现状和减肥减药维持生态环境安全的国家需求,"十四五"期间,土壤肥力与土壤养分循环分支学科应加强以下针对性研究:1)休耕轮作对土壤肥力的影响及通过休耕轮作维持和提高土壤肥力的原理、途径和方法;2)高度集约化种植条件下快速恢复土壤肥力,保持土壤健康和有效利用土壤养分的科学管理原理、途径和方法;3)实现土壤-作物-环境相互契合,充分发挥土壤肥力,高效利用土壤养分的基础科学问题。     

Progress in relationship between epithelial sodium channel and related respiratory diseases

Epithelial sodium channel (ENaC) is an ion channel widely distributed in various tissues and organs of human. It is composed of 3 homologous subunits and allows the flow of sodium ion across epithelial cells, maintain?ing water-salt balance in the cells. Recent studies show that abnormal expression or dysfunction of ENaC in the respiratory system affects water-salt balance, fluid transportation and cell mobility, and causes abnormal changes of the airway surface liquid level and impaired clearance. ENaC is closely related to the development of respiratory diseases, such as cystic fibrosis, asthma and chronic obstructive pulmonary disease. This article reviews the progress in ENaC structure, function and roles in related respiratory diseases in order to provide a reference for the treatment of the diseases.     

黄淮海与环渤海设施蔬菜产区重金属累积特征和环境质量评价

黄淮海与环渤海设施蔬菜产区是全国蔬菜发展的六大优势产区之一。通过收集2011～2019年黄淮海与环渤海设施菜田重金属研究的文献数据,对该区域重金属污染和环境质量进行了统计分析。结果表明,黄淮海与环渤海设施蔬菜产区土壤重金属Cu、Zn、Cr、Ni、Pb、Cd、As和Hg的平均含量均低于温室蔬菜产地环境质量评价标准限量值。与各个省市土壤背景值相比,土壤出现了明显的Cu、Zn、Cd和Hg累积,Cr和As均没有出现累积。8种重金属元素单项污染指数范围在0.30～0.80,排序依次为:CdPbHg=NiZnCuAsCr,仅Cd处于警戒等级,其余重金属元素均处于清洁等级。8种重金属综合污染指数平均值为0.75,表明该区域重金属污染处于警戒水平,需采取相应的污染防控措施。     

潮汐灌溉模式下不同营养液对辣椒幼苗生长的影响

为了培育辣椒壮苗，在潮汐灌溉模式下筛选适合辣椒穴盘育苗的营养液，探讨不同营养液在辣椒穴盘育苗上应用的可行性，以国塔166为试材，以草炭、蛭石（体积比3∶1）为栽培基质，进行试验研究。试验采用6种营养液配方，通过测定株高、茎粗、干鲜质量、壮苗指数、叶绿素含量、光合参数、根系活力、根系形态等指标，筛选最优营养液配方。结果表明：Arnon和Hoagland 番茄配方处理辣椒幼苗的株高、茎粗、地上鲜质量、地上干质量、叶绿素含量、净光合速率、气孔导度、壮苗指数、根尖数等指标均最高，其中壮苗指数分别较日本山崎番茄、Hoagland和Arnon、华南农业大学、Rothamsted、日本山崎甜椒配方高出44.44%、62.50%、30.00%、116.67%、62.50%。综上可知，Arnon和Hoagland 番茄配方是潮汐灌溉模式下辣椒穴盘育苗的最佳配方。     

便携式XRF仪现场快速测定土壤中Pb的可行性研究

便携式XRF分析仪具有轻便、快速和可测对象较多与测量元素较广等特点而广泛应用于矿石、土壤等方面快速检测,但土壤的现场快速测定结果的准确性有待进一步研究与探讨。以安宁河谷平原土壤中Pb为研究对象,通过对便携式XRF仪现场快速检测结果与实验室分析结果的对比和影响因素的分析,建立基于安宁河谷平原表层土壤快速测定结果的线性函数为y=1.170 9x-17.326 0(R~2=0.992 9,x为现场检测结果),探讨其影响因素,为该区域表层土壤中Pb快速检测结果提供依据。     

保水缓释肥料保水性能及养分释放特性

为了明确添加水溶性保水剂(羧甲基纤维素钠、聚丙烯酰胺、聚丙烯酸钠)肥料的保水缓释效果,利用圆盘造粒工艺制备了保水缓释肥料,通过土壤培养和土柱淋溶试验,研究了保水缓释肥料在土壤中的保水性能和养分缓释效果。结果表明:3种保水缓释肥料均具有一定保水性和养分缓释效果,随保水缓释肥料用量增加,土壤最大持水率逐渐增加,土壤水分蒸发率逐渐减小;其中,以添加聚丙烯酸钠的保水缓释肥料保水性能和养分缓释效果最佳,首次淋溶后氮磷钾养分释放率较普通肥料分别减少了50.38%、55.74%、48.37%,当肥料添加量为2%时,土壤最大持水率较纯土壤提高了43.28%,培养至30 d土壤水分蒸发率较纯土壤降低了22.86%。     

Effects of biodegradable mulch on soil quality

Biodegradable plastic films are desirable alternatives to traditional black polyethylene plastic for use as mulches in agroecosystems. Efforts are ongoing to engineer biodegradable plastic mulches that could be incorporated into the soil at the end of the crop season, and decomposed by microorganisms, ultimately to CO₂, H₂O, and biomass. Whether changes in soil quality occur during or following biodegradation is unknown. An 18-month study evaluated the effects on soil quality following burial of four potentially biodegradable mulches and a no mulch control in high tunnel and open field tomato production systems across three geographically distinct locations (Knoxville, TN; Lubbock, TX; Mount Vernon, WA). The mulch treatments included: two starch-based mulches (BioAgri^® Ag-Film and BioTelo Agri); one experimental 100% polylactic acid mulch (Spunbond-PLA-10); one cellulose-based mulch (WeedGuardPlus; positive control); and a negative control (no mulch). The soil management assessment framework (SMAF) was used to calculate a soil quality index (SQI) according to five dynamic soil properties: microbial biomass carbon, β-glucosidase, electrical conductivity, total organic carbon (TOC), and pH. Within the 18-month evaluation period, the effects of the biodegradable mulches on the SQI were minor, and dependent upon production system and time of incubation at all locations. In general, the SQI was higher in the high tunnel systems for some of the mulch treatments at Knoxville and Lubbock but the opposite was true at Mount Vernon. By the final sampling at 18 months, the SQI was lowest for WeedGuardPlus at Lubbock and Mount Vernon but at Knoxville, the WeedGuardPlus SQI was not significantly different from the no mulch control. Of the five SMAF indicators evaluated, soil microbial biomass and β-glucosidase activity were the most responsive to mulch and production systems, supporting the use of these variables as soil quality indicators for short-term changes due to this agricultural management practice.