利用盐生植物发展“盐湖农业”研究进展

由于人口增长和全球气候变暖,次生土壤盐碱化日趋严重,淡水资源缺乏,使得人类粮食和食品供给面临严峻挑战。“盐湖农业”为解决这一问题提供了一种新的思路。本文评述了盐生植物在农业上的应用国内外研究进展,重点综述了盐生植物作为食物、饲料、工业原料等方面的研究。盐生植物生长环境比较恶劣,一些盐生植物为应对逆境环境而合成出丰富的次生代谢物,这些代谢物对预防疾病和促进健康大有益处,因此近年来市场对盐生植物的需求显著增加。我国盐湖资源丰富,利用盐生植物发展盐湖农业有得天独厚的条件,具有广阔的应用前景,本文最后提出了在我国发展盐湖农业的几点建议。

哈佛大学图书馆再现性研究服务分析与启示

再现性研究是科学界应对可重复性危机的有效手段,也是确保研究质量、验证科学研究客观性和准确性的有力保障。为了提高高校师生和科研人员对再现性研究的认识,提升整体研究质量,剖析再现性研究的概念和意义,并利用文献阅读法、网络调研法、实地访谈法详细分析哈佛大学图书馆设置服务团队、选择得当工具、提供持续培训等再现性研究服务的多种举措。从增强服务理念、营造服务生态、提升服务能力、开展服务合作等方面剖析哈佛大学图书馆再现性研究服务的启示意义。

基于语义的地方志资源聚合与可视化研究

论文应用语义网相关技术开展地方志资源聚合研究,挖掘海量、分布式、异构资源间的潜在关联,系统分析了基于语义的三种信息资源深度聚合模式特点,并以东北师范大学图书馆“东北地方志”馆藏资源作为数据源,开展基于元数据的地方志资源聚合实证研究。构建元数据视角下地方志资源聚合的理论框架和可视化服务平台,为地方志资源的深度关联和揭示提供从理论到实践的实现路径。

中外猪种间生长发育相关的差异候选基因筛选

通过对我国地方猪种与国外猪种比较,筛选与生长发育性状相关的差异候选基因,探索猪种之间生长发育差异的分子机制。分别选择5头内江猪和大约克夏猪进行全基因组重测序,以10 kb滑动窗口和1 kb步长计算群体间遗传分化指数(Fst)平均值,并依据Fst筛选差异SNPs。最终在内江猪与大约克夏猪的比较中分别鉴定出48924个非同义SNP,它们高度影响2490个基因。同时,在乙酰辅酶A乙酰转移酶1(ACAT1)、胰岛素样生长因子受体2(IGF2R)和胰岛素样生长因子2 mRNA结合蛋白3(IGF2BP3)基因中检测到3个非同义SNP,这可能影响乙酰辅酶A向乙酰乙酰辅酶A的转化和胰岛素信号通路的正常功能。本研究结果将为探索决定猪表型特征的遗传差异提供基础信息。

层级式心理支持配合化疗管理流程表在乳腺癌化疗患者中的应用

目的:探讨层级式心理支持配合化疗管理流程表在乳腺癌化疗患者中的应用效果。方法:选取2021年1月1日~12月31日收治的90例乳腺癌化疗患者为研究对象,随机分为对照组48例和实验组42例,两组均给予常规护理,对照组在常规护理基础上使用化疗管理流程表,实验组在此基础上使用层级式心理支持;比较两组化疗依从性情况、胃肠道反应情况、心理状态[采用抑郁自评量表(SDS)、焦虑自评量表(SAS)、改良中文版Piper疲乏调查量表(RPFS)]及护理满意度。结果:实验组化疗依从性良好率高于对照组(P<0.05),胃肠道反应情况优于对照组(P<0.01);干预后,两组SDS、SAS、RPFS评分均低于干预前(P<0.05),且实验组低于对照组(P<0.01);实验组护理满意度高于对照组(P<0.05)。结论:将层级式心理支持配合化疗管理流程表应用于乳腺癌化疗患者中,可减轻患者化疗所致胃肠道反应,改善心理状态,提高化疗依从性、护理满意度。

基于SNP芯片的丫杈猪保种群体遗传结构研究

旨在研究丫杈猪保种群体的遗传多样性、亲缘关系和家系结构。本研究采用“中芯一号”芯片检测了166头丫杈种猪的单核苷酸多态性(single nucleotide polymorphism,SNP);利用Plink软件计算观察杂合度、期望杂合度、多态信息含量、最小等位基因频率,分析丫杈猪群体的遗传多样性;采用Plink软件构建状态同源(identity by state,IBS)距离矩阵和分析连续性纯合片段(runs of homozygosity,ROH),采用GCTA软件构建G矩阵,分析丫杈猪群体的亲缘关系;采用Mega X软件构建群体进化树,分析丫杈猪群体的家系结构。结果显示,166头丫杈猪共检测到45211个SNPs位点,通过质量控制的SNP位点有36243个;有效等位基因数为1.529,多态性信息含量为0.254,多态性标记比例为0.875,最小等位基因频率为0.233;期望杂合度为0.329,观察杂合度为0.344;状态同源平均遗传距离为0.2595,状态同源距离矩阵和G矩阵结果均表明大部分丫杈猪呈中等程度的亲缘关系;ROH片段共有3226个,其中40.96%的长度在0~100 Mb之间,基于ROH的平均近交系数为0.069;群体进化树结果表明,丫杈猪公猪被分为8个血缘,数量与传统系谱记录的相同,但血缘间有个体差异。综上所述,丫杈猪保种群的有效群体含量偏低,遗传多样性中等偏低,近交程度不严重,可引入或创建新血缘,扩大有效群体含量,提高群体遗传多样性。

哈佛大学图书馆管理模式变革及科研服务研究

图书馆是高校文献资源保障的基础设施,不仅要保存、传播知识,更要引进现代化管理思想和方法,进一步挖掘、利用和融合国外图书馆运作和管理方面的先进成果,打造符合国内高校自身特色、满足读者多方位需求的研究型图书馆。本文探讨美国哈佛大学图书馆管理模式的变革、提高馆员专业素质的举措、为全校师生提供全方位科研服务及科研拓展服务的多种途径,以期为国内高校图书馆全面深化知识服务提供一定参考。

盐湖农业及其发展战略研究

我国是多盐湖国家,拥有丰富的盐沼带及咸水资源,发展盐湖农业对于荒漠化治理、生态环境保护,对发展西部落后地区经济,开拓具有干旱、半干旱地区特色农业,具有现实和长远战略意义。随着全球人口增长,粮食短缺,淡水资源缺乏,充分利用咸水资源及盐碱地资源发展盐湖农业对保障人类食品安全十分必要。本文梳理了近年来在盐湖农业方面的认识及发展成果,指出发展盐湖农业存在的问题,并提出把盐湖农业列入国家科技规划、对盐湖流域盐碱地进行功能区划等创新驱动盐湖农业发展建议。

基于“双一流”建设的世界级信息资源服务体系构建研究

当今世界一流大学图书馆的资源建设呈现出了全球化需求、“即时性”趋势、图书馆信息资源枢纽定位和服务成为衡量资源建设的重要指标的现实等趋势。基于此,文章调研分析了世界一流大学图书馆信息资源建设的趋势,在此基础上提出了构建世界级信息资源服务体系,并具体探讨了世界级信息资源服务体系的构成及特点,论述了世界级信息资源服务体系建设的对策,以助力高校“双一流”建设。

最低工资标准与家庭风险性金融资产投资——基于CHFS微观数据的经验证据

采用中国家庭金融调查2015—2019年数据,检验最低工资标准提升对家庭风险性金融资产投资的影响及其作用机制。实证结果表明,最低工资标准提升会促进家庭进行风险性金融资产投资,进而提高家庭风险性金融资产投资深度。机制分析发现,提高低收入群体家庭收入和健康水平是最低工资标准提升影响家庭风险性金融资产投资的重要渠道。异质性分析表明,在城镇、国有经济发展水平较高地区以及签订正规劳动合同家庭中最低工资标准的影响效应更为明显。因此,建议进一步完善最低工资标准调整机制,健全社会保障体系,优化国有经济布局,合理降低民营企业负担,以此引导低收入群体合理配置风险性金融资产,拓宽其增收渠道。

重庆市农田生态服务价值时空变化特征及其驱动因素分析

农田对保障区域物质供给、生态系统服务供给有着不可替代的作用,为探究区域农田生态服务价值的时空变化和驱动因素,本文基于重庆市2007-2016年统计年鉴及相关年份区县年鉴数据信息,构建农田生态服务价值指标体系,引入物价指数,通过列表清单法对重庆市农田生态服务价值进行评估,利用STIRPAT模型分析各区县间人均农田生态服务价值差异的社会驱动因素。研究表明:(1)2007年、2012年和2016年重庆市农田生态服务价值分别为898.06亿元、938.97亿元和1 038.45亿元,呈明显上升趋势,增幅为15.63%;年均农田正向服务价值(1 024.49亿元)远高于其负向价值(59.02亿元)。(2)就农田生态服务价值空间变化而言,渝西片区的总量和人均变化幅度最大,为30.32%和16.80%,其中农业较为发达的永川区、江津区农田负向价值相对突出;人均年农田生态服务价值排序为:渝东南片区(5 855元·人-1)>渝东北片区(4 027元·人-1)>渝西片区(3 846元·人-1)>主城片区(840元·人-1)。(3)农业人口、城市化率、万元GDP能耗是重庆市各区县人均农田生态服务价值空间差异的社会驱动因素,主城片区的发展对其农田生态系统造成较大的压力,该区域应合理调整产业结构,以提升农田生态服务价值。研究结果为重庆市农田生态环境保护、恢复以及耕地补偿等提供科学依据。

我国泥炭资源开发利用现状及建议

概述了泥炭的形成过程和基本特征,国内外泥炭资源储量、分布特征及其理化特性。阐述了国内外泥炭在工业、农业、环境保护和医药等领域的研究成果及其应用前景。对我国泥炭产业发展现状、存在的问题及对策进行了探讨,指出开展新一轮全国优质泥炭资源综合调查势在必行。

有机无机肥配施模式对氮素淋失的影响

为了探索农田氮素淋失低风险的有机无机肥配施模式,该研究收集了331个有效农田有机肥化肥配施数据对,分析了施肥总量、施肥结构(有机肥替代比)、施肥时间(基追施)、有机肥种类等因素对氮素淋失的总体影响。结果表明:与单施化肥相比,有机肥配施化肥中氮素总量较低时(N<200 kg/hm^(2)),农田总氮(Total Nitrogen,TN)、硝态氮(NO_(3)^(-)-N)淋失分别减少36.77%、65.05%;有机肥替代比高于70%,虽然可减少TN淋失(39.64%),但增加了溶解性有机氮(DON)淋失的风险(15.78%),尤其是动物型有机肥替代化肥使DON淋失增加26.31%;氮肥基施可显著降低TN、NO_(3)^(-)-N淋失(43.58%、70.51%,P<0.05)。碱性旱地土壤上有机肥配施化肥可有效抑制TN、NO_(3)^(-)-N淋失,但增加了26.63%~42.95%的DON淋失。旱地氮素淋失以NO_(3)^(-)-N为主,且淋失系数高于水田,提高有机肥替代比可以大幅降低旱地氮素淋失,但增强了DON淋失。因子重要性分析表明:有机肥替代比对TN淋失影响占主导作用,而施氮水平对NO_(3)^(-)-N、DON淋失影响更为重要。因此,低施氮量、高替代比动物型有机肥可有效减少碱性旱地土壤氮素淋失。研究结果可为有机肥配施化肥的农田应用提供依据。

Progress and Prospects of Salt Lake Research in China

China has unique salt lake resources, and they are distributed in the east of Eurasian salt lake subzone of the Northern Hemisphere Salt Lake Zone, mainly concentrated in the regions with modern mean annual precipitation lower than 500 mm. This paper preliminarily reviews the progress made in salt lake research in China for the past 60 years. In the research of Paleoclimate and paleoenvironment from salt lake sediments, a series of salts have been proposed to be indicators of paleoclimate, and have been well accepted by scholars. The chloride-sulfate depositional regions of the west Qaidam and the east Tarim have been revealed to be the drought center of China since the Quaternary, and more than 6 spreading stages of arid climate （salt forming） have been identified. Five pan-lake periods with highstands have been proved to exist during the late Quaternary on the Tibetan Plateau. In mineral resource prospecting and theories of the forming of salt deposits： the atlas （1：2500000） of hydrochemical zoning of salt lakes on the Tibetan Plateau has been compiled for the first time, revealing the zonal distribution and transition from carbonate type to chloride type from south to north and presenting corresponding mineral assemblages for different type of salt lakes; several large continental salt deposits have been discovered and the theory of continental potash deposition has been developed, including the salt deposition in deep basins surrounded by high mountains, the mineral deposition from multistage evolution through chains of moderate or shallow lakes with multilevels, the origin of potassium rich brines in gravel layers, and the forming of potassium deposits through the inheriting from ancient salt deposits, thus establishing the framework of ＂Continental Potash Deposition Theory＂; several new types of Mg-borate deposits have been discovered, including the ulexite and pinnoite bed in Da Qaidam Lake, Qinghai, the pinnoite and kurnakovite bed in Chagcam Caka, Tibet, the kurnakovite bed in Lake Nyer, and the corresponding model of borate deposition from the cooling and dissolution of boron rich brines was proposed based on principles of geology, physics and chemistry. The anti-floatation-cold crystallization method developed independently has improved the capacity of KCI production to 3 million tons per year for the Qarham, serving the famous brand of potash fertilizer products. One 1.2 million ton K-sulfate production line, the biggest in the world, has been built in Lop Nor, and K-sulfate of about 1.6 million tons was produced in 2015. Supported by the new technology, i.e. brine preparation in winter-cooling-solarization-isolation-lithium deposition from salt gradient solar pond＂ the highest lithium production base at Zabuye Lake （4421 m）, Tibet, has been established, which is the first lithium production base in China that reaches the year production of 5000 tons of lithium carbonate. The concept of Salt lake agriculture （Salt land agriculture） has been established based on the mass growth of Dunaliella and other bacillus-algae and the occurrence of various halophytes in saltmarsh and salt saline-alkali lands, finding a new way to increase arable lands and develop related green industry in salt rich environments. Finally this paper presents some new thoughts for the further research and development on salt science, and the further progress in salt science and technology will facilitate the maturing of the interdisciplinary science ＂Salinology＂.

A Comparative Analysis of Evaporate Sediments on Earth and Mars: Implications for the Climate Change on Mars

The knowledge of Martian salts has gone through substantial changes during the past decades. In the 70th of last century, Viking landers have noticed the existence of salts on Mars. Several salt species have been suggested from then on, such as sulfates and chlorides. However, their origin was a mystery due to the lack of observations. The recent explorations and related studies at the beginning of this century revealed that the crustal composition of Mars is similar to that of Earth, and it was hypothesized that almost one third of Martian surface was covered by oceans and lakes in the early stage of Mars. The huge water bodies may have dissolved a large quantity of ions from Martian primary rocks during the whole Noachian and Hesperian epoch. After the enormous drought event happened during the late Hesperian and the early Amazonian, these dissolved ions have formed huge salts deposits and most of them were preserved on Mars until today. To date, carbonates, sulfates, chlorides have all been detected by orbital remote sensing and by landers and rovers. However, the salt mineral assemblages on Mars seems to have some differences from those on Earth, e.g., rich in sulfates and lack of massive carbonates. To explain this difference, we propose that most of the surface carbonates precipitated from the ancient oceans may have been dissolved by the later ubiquitous acidic fluids originated from the global volcanism in the Hesperian era, and formed the enormous sulfate deposits as detected, and this hypothesis seems to be supported by the evidence that most of the sulfate deposits distribute around the Tharsis volcanic province while the survived carbonates located far from it. This process can release most of the carbon on Mars to the atmosphere in the form of CO2 and then be erased by the late heavy bombardments, which might have profound influence on the climate change happened in the Hesperian age. The positive correlation between the GRS results of the potassium distributions and the distribution of chlorides on Mars, together with the high Br concentration measured from the evaporate sediments at two Mars exploration rover landing sites, indicate that the brines in the regions where the chlorides deposited may have reached the stage for potassium salts deposition, thus we propose for the first time that potassium salts deposits might be prevalent in these regions.

Microbial Mats in Tibetan Hot Springs and their Contributions to the Cesium-bearing Geyserite Ore Formation

Microbial mats, mainly dominated by filamentous algae Calothrix and Oscillatoria, are well developed in Tibetan hot springs. A great number of fossil microorganisms, which existed as algae lamination in thermal depositional cesium-bearing geyserite in this area, are identified as Calothrix and Oscillatoria through microexamination and culture experiments. These microbial mats show the ability to accumulate cesium from spring water to the extent of cesium concentration of 0.46-1.03% cell dry weight, 900 times higher than that in water, and capture large numbers of cesium-bearing opal grain. Silicon dioxide colloid in spring water replaces and fills with the organism and deposits on it to form algae laminated geyserite after dehydration and congelation. Cesium in the microbial mats and opal grain is then reserved in the geyserite. Eventually, cesium-bearing algae laminated geyserite is formed. Study on cesium distribution in geyserite also shows that cesium content in algae lamination, especially in heavily compacted algae lamination, is higher than in the opal layer. For geyserite with no algae lamination or other organism structure, which is generally formed in spring water with low silicon content, cesium accumulation and cesium-bearing opal grain assembled by the microbial mats are also indispensable. After the microbial mats accumulating cesium from spring water, silicon dioxide colloid poorly replaces and fills with the organism to form opal grain-bearing tremellose microbial mats. The shape and structure of the organisms are then destroyed, resulting in cesium-bearing geyserite with no algae lamination structure after dehydration and congelation. It is then concluded that microbial mats in the spring area contribute to the enrichment of cesium in the formation of cesium-bearing geyserite, and a biological genesis of the geyserite, besides of the physical and chemical genesis, is likely.

Results of an Intentional Introduction of Artemia sinica in the High-Altitude Tibetan Lake Dangxiong Co:On a Base of Surveys in 2011 and 2013

1 Introduction The human population is projected to reach 9200million by 2050.A fundamental question for science is whether it is possible to increase food production to meet the demands of a human population of that magnitude.It’s possible only to increase an aquaculture production.Cultivation of fish/shrimp larvae is a bottleneck in a cultivation of the different organisms.Live food

The homogenization temperature in the fluid inclusions of Ordovician halite and paleoclimatic implication

1 Introduction The homogenization temperature of fluid inclusions reflects the temperatures of the brines from which halite crystals grew.Therefore,it is a powerful mean to reveal the paleoclimate.Northern Shaanxi Salt Basin is located in the central and eastern of Ordos Basin.We have detail petrographical research and the homogenization

垂直激波加速中粒子动量变化的数值模拟研究

利用测试粒子数值模拟的方法统计研究了电子在垂直激波附近每次穿越过程中的动量增量随粒子速度的变化规律.模拟采用的磁场模型是由均匀的背景磁场和"slab+2D"形式的三维湍流磁场叠加构成的.数值结果表明,粒子穿越激波面前后的相对动量变化和粒子动量的相对变化率均随速度的增加而减小,当速度大于2×10~8m/s时,粒子动量的相对变化率随速度呈现更加显著的衰减趋势,明显反映出相对论参数γ=1/■所引起的物理效应.模拟结果在较大的湍流强度范围内都与理论给出的变化关系较为一致.

Characterization and recovery of the halophiles in the fluid inclusions in halite

1 Introduction It is the focus of geology and biology that the creature preserved in the geological history and the organic evolution.The creature preserved in geological history by these things:sedimentary,frozen earth,chrysophoron and evaporation salt.Evaporation salt can preserve the microbe