Evaluation on Soil Improvement Effects of Organic Fertilization in Honey Peach Orchard in the Longquan Mountain

Combined application of organic fertilizer is an effective measure to improve the productivity and ecological effect of newly added soil.However,the effect of organic fertilizer application in newly added orchard soil is not clear.In this project,the soil of newly built peach orchard in the Longquan Mountain of Chengdu was applied with 45 t/hm 2 of organic fertilizer.After 9 months of planting 6 varieties of honey peach(Wanhujing,Baifeng,Zhongtao 13,Huangjinmitao 1,Zhongpan 101,Zhongpan 104),the locally well developed peach orchard was taken as the control.The physical and chemical properties of soil from four topography(top slope,middle slope,lower slope and flat land)of newly built peach orchard were analyzed,and the effect of organic fertilizer on soil was evaluated.The results showed that combined application of organic fertilizer had different effects on soils from orchards with different varieties of peach and from different terrain parts of the same peach variety.Specifically,it had the best effect on soil improvement in Baifeng(local variety),Zhongpan 101 and Zhongpan 104(introduced varieties).Meanwhile,the best effect of soil improvement was found on top slope.Cluster analysis divided newly built peach orchards,uncultivated soil,and locally well developed peach orchard into four groups,indicating that the selected amount of organic fertilizer application in this study has improved the soil of peach orchards to some extent,but it was still necessary to increase the application amount.It was better for 54 t/hm 2 amount of organic fertilization on the part of top and middle slope,and 60 t/hm 2 on the lower slope and flat land.The comprehensive ecological benefit assessment of organic fertilizer should be conducted based on long-term monitoring of peach orchard ecological environment,fruit tree growth,fruit yield and quality,which would provide scientific basis for peach orchard production and management.

Longquan of the World: Longquan Celadon and Globalization Exhibition Show in the Palace Museum

This exhibition is a showcase of over 830 works (or sets) or Longquan celadon and imitations from forty-two museums and archaeological institutes around the world.The opening ceremony of the exhibition of Longquan of the World: Longquan Celadon and Globalization was held at the Hall for Abstinence (Zhai gong) in the Palace Museum on July 16, 2019 and will run through October 20.

Longquan Swords

In traditional Chinese culture,the sword is not just a weapon,but serves as a cultural symbol representing its master’s social status and taste.The Longquan Sword is known as the first iron sword in Chinese history.In 2006 the forging technique of Longquan Swords entered the list of national intangible cultural heritage.

LONGQUAN Celadon

Longquan celadon comesfrom Longquan County,Zhejiang Province.It is atraditional ceramic,and notedfor its smooth and crystal-clearglaze.

南宋和元代龙泉窑粉青瓷釉色比较研究

为了研究南宋与元代龙泉粉青瓷釉呈色机理,采用colorimeter,XRF,XRD,Raman spectrometer,XPS等对南宋和元代龙泉粉青瓷釉进行对比分析。结果表明,南宋粉青瓷L*值大于元代,而a*、b*值小于元代粉青瓷。南宋粉青瓷的烧成温度低于元代。龙泉粉青瓷乳浊如玉的质感主要是受釉层内小而密集气泡与大量石英晶体对光的影响所致。Fe2O3的化学色主导了龙泉青瓷的呈色,且南宋粉青瓷的Fe2+与Fe3+的比值高于元代粉青瓷,是南宋粉青瓷偏蓝而元代粉青瓷偏绿的主要原因。

“非遗”视角下的龙泉窑青瓷文化之传承及其保护策略探析

龙泉窑青瓷作为中国传统工艺的卓越典范,蕴含着深厚的文化底蕴和独特的历史价值,因此,对其传承与保护工作的重要性不言而喻。本文旨在深入剖析龙泉窑青瓷文化的当前状况、所面临的问题以及产业发展现状等角度出发,探讨有效的保护与传承策略,从而提出切实可行的保护措施。

冲泡用水对龙泉金观音茶汤品质的影响研究

为研究水质及冲泡条件对茶汤品质的影响,探究茶叶最佳冲泡方案,选用金观音茶树品种制作龙泉金观音乌龙茶(浓香型及清香型)和龙泉金观音红茶2种茶类,共3个茶样,选用龙泉山泉水、龙泉深层地下水和纯净水为试验水样,对不同水质在不同冲泡条件下冲泡茶样的感官品质及理化成分进行分析。结果表明,3种水样水质差异明显,其中龙泉深层地下水离子化合物含量和电导率均最高,龙泉山泉水次之,纯净水最低。此外,经响应面分析可得浓香型龙泉金观音乌龙茶最佳冲泡方案为温度90℃、时间4min、茶水比1∶25,清香型龙泉金观音乌龙茶最佳冲泡方案为冲泡温度90℃、时间5min、茶水比1∶25,龙泉金观音红茶最佳冲泡方案为温度100℃、时间5min、茶水比1∶50。

宋元时期龙泉青瓷外销路线探析

龙泉青瓷是贯穿海上丝绸之路繁荣时期的重要外销商品。文章以宋元时期澉浦、杭州、明州、温州、泉州五个港口的市舶司机构沿革为切入点,详细剖析了龙泉青瓷在深山大岙中从北路往明州、杭州及澉浦,中路往温州,南路往泉州的陆上运输路线及海上大致航道。

中国画元素融入龙泉青瓷的装饰应用研究

龙泉青瓷作为世界非物质文化遗产是我们中华民族优秀传统文化的一大标志,随着时代的发展,龙泉青瓷也必然需要不断创新去顺应新时代的发展需要。本研究将龙泉青瓷的纹饰作为创新主题,通过分析研究总结出历代龙泉青瓷的纹饰特征;将传统中国画作为主要创新元素,将“谢赫六法”作为理论框架对瓷画融合创新;阐明“以形写神”等中国画核心造型观;对其市场进行深入探讨;提炼出结合现当代社会背景“瓷画相生”的人文价值。

龙泉青瓷元素在现代旅游服饰产品设计中的创新应用

文章基于龙泉青瓷元素在现代旅游服饰产品设计中的应用,详细介绍了龙泉青瓷的冰裂纹、色彩、造型和纹样等元素,通过对其色彩、纹样等元素的提取和分析,探索了其材质搭配和纹理效果;运用不同材质如皮革、斜纹锻面料和卡丹皇,增强服装的视觉冲击力和精致感,巧妙地将冰裂纹和龙泉青瓷纹样融入服装设计中,从而促进龙泉青瓷这一国家级非物质文化遗产的传承和发扬。

多要素地质调查地质遗迹与旅游资源综合调查评价方法研究

近年旅游地质学已有长足发展,国内大力推进地质公园的申报和建设。四川省进行了全省文化与旅游资源普查工作,但是对系统的旅游地质资源调查、评价和规划建议的基础理论和方法的研究较少。由于成都龙泉山地区具有地质遗迹景观、自然景观和人文景观均较为丰富的特征,项目难以单独采用地质遗迹和旅游资源调查的方法进行调查评价。以此基础,尝试探寻一种将地质遗迹和旅游资源调查评价合二为一的方法,并首次提出了撰写保护和开发利用建议报告的方法和报告具体内容。实践证明此方法较为全面,具有较好的适用性和普遍性。

CMF与信息可视化在青瓷设计中的应用

探寻传统手工艺在工业设计驱动下的创新模式。以龙泉青瓷的创新设计为例,将工业设计领域盛行的CMF设计方法与青瓷材料感知实验相结合,挖掘青瓷釉色肌理的多种可能性,并引入信息可视化概念,将实验结果转化为视觉信息图谱,以利于后续设计决策的实施。青瓷材料感知实验成果、实验视觉图谱,具体设计应用。为设计教育践行非遗活态保护的路径提供参考。

复合地层隧洞中隔离桩对围岩位移的控制效果分析

设置隔离桩作为一种控制城市隧洞开挖引起围岩变形的有效手段,在“上软下硬”复合地层中的作用效果还罕有研究。依托滇中引水工程龙泉隧洞,采用FLAC^(3D)软件,分析隔离桩桩位、桩径、桩长及桩顶埋深等参数对隧洞衬砌及地表建筑物变形控制效果的影响。结果表明:设置隔离桩能够阻隔地层应力的传递,合理的设计参数是充分发挥隔离桩阻隔作用的关键;同等条件下,隔离桩对地层位移的限制作用在水平方向优于竖直方向;隔离桩距离隧洞越近、桩径越大,控制变形效果越好;隔离桩只有穿过地层滑移面并嵌入下层土体时,才能够较好控制由隧洞开挖引起的隧洞衬砌以及地表建筑物位移,建议嵌入下层土体深度为隔离桩长度的1/4;适当设置桩顶埋深能够降低隔离桩对于土体的牵引作用,建议桩顶埋深深度为隔离桩长度的1/5。研究成果可为隔离桩在城市浅埋复合地层隧洞工程中的应用提供参考。

龙泉司法档案俗字考释

龙泉司法档案是晚清民国时期浙江省龙泉县的地方法院档案,为手写纸本文献,内中俗字众多,对文本的准确释读和整理造成了一定的障碍。摭取“■”“■”“■”“■”“■”“■”“■”“■”八个俗字作以考释,希冀为文本的释读和整理扫除文字方面的障碍,推动汉语俗字的发展,并为语文辞书的编修提供字形材料。

龙泉青瓷呈色的影响因素

龙泉青瓷呈色的影响因素包括釉料本身的因素和外界环境的因素。釉料本身的因素按烧制过程分为釉层封闭前的影响因素和釉层封闭后的影响因素。釉层封闭前,源源不断的还原气体与釉层中有限的氧化铁颗粒表层分子进行还原反应,其还原比值即被还原生成的二价铁与未被还原的三价铁的比值决定了釉的色调。影响还原比值的因素包括釉中铁的细度、铁的含量和铁的分散度,其中铁的含量既影响釉的色调,又影响釉的色饱和度;釉层封闭后,还原气体已不能进入釉层,影响釉的呈色的因素为釉的化学组成,即碱金属氧化物和碱土金属氧化物中,因碱金属和碱土金属离子对氧离子的结合能力不同,不同程度地游离出氧离子,使二价铁离子氧化成三价铁离子,即改变釉的还原比值,从而影响了釉的呈色。外界环境的因素包括烧成气氛、釉层厚度、坯体的含铁量、还原气氛的强弱、烧成温度以及瓷土中微量着色元素等。

龙泉青瓷釉的组成、熔体结构和高温黏度的关系

以龙泉窑梅子青釉化学组成为基础,分别用2%各种氧化物代替2%SiO_(2),配制七种釉料。通过釉料熔融实验分别确定釉熔体的始熔温度、全熔温度和流动温度;通过施釉制品烧成试验,观察各烧成制品的釉面外观质量、釉层气泡和晶体的变化情况,制品底部釉层积釉程度及蚯蚓纹分布情况,并结合熔体分子结构理论,揭示了SiO_(2)、Al_(2)O_(3)、K_(2)O、Na_(2)O、CaO、MgO和Fe_(2)O_(3)等七种氧化物对釉熔体高温黏度的影响。增加SiO_(2)或Al2O3含量,会增加熔体的高温黏度,其中,Al_(2)O_(3)的影响程度更大;而增加K_(2)O、Na_(2)O、CaO、MgO、Fe_(2)O_(3)中任一氧化物的含量,均会使得釉熔体的高温黏度降低,其中:CaO的影响程度最大;MgO的影响程度最小。K_(2)O使得釉的熔融范围扩大;CaO使得釉的熔融范围缩小。

氧化锌和氧化钡对龙泉窑梅子青釉性状影响之比较

以龙泉窑梅子青釉为基础,分别用氧化锌和碳酸钡逐步替代石灰石共配制15种釉,施于龙泉弟窑胎和哥窑胎上,采用氧化气氛和还原气氛进行烧制实验,通过观察釉的成熟度、光泽度、透明度、晶体分布、气泡数量和大小、裂纹等性状并结合相图,推论出氧化锌和氧化钡替代氧化钙对釉的始熔温度、高温粘度和热膨胀系数的影响规律。

Study on the chemical composition features of Longquan celadon excavated from the Chuzhou site of Huai'an City in Jiangsu Province by EDXRF

A mass of Longquan celadon shards were excavated from the Chuzhou site of Huai＇an City in Jiangsu Province, China. These celadon shards were fired during the period of the Late Yuan Dynasty to the Tianshun era of the Ming Dynasty, as identified by archaeologists at Nanjing Museum. In order to research the chemical composition features of this ancient celadon porcelain, energy dispersive X-ray fluorescence （EDXRF） for non-destructive analysis was used to determine the chemical composition of the porcelain body and glaze in these shards. The results indicate that Ti and Fe in the body of Longquan celadon are characteristic elements which can distinguish porcelain produced during the Late Yuan Dynasty from those produced in the Ming Dynasties. The results of the principal component analysis （PCA） show that different body and glaze raw materials were used for the production of porcelain in different periods and the raw materials of the body and glaze are also different for various vessel shapes. The chemical compositions in the porcelain body of civilian ware are slightly different. The imperial and civilian Longquan celadon porcelains produced during the Hongwu era to the Tianshun era of the Ming Dynasty are distinguishable by the MnO, Fe2O3, Rb2O and SrO content in their porcelain glaze.

龙泉青瓷胎体的烧结研究

龙泉青瓷白胎、朱砂胎、哥窑胎和铁胎四种胎体含铁量不同,导致胎体的烧结过程和结果各不相同。因四种胎体均含有氧化铁,低共熔氧化物是相同的,则低共熔点温度是相同的,因此开始烧结的温度是一致的;而在烧结过程中,由于各胎体的含铁量不同,导致烧结速度和烧结程度各不相同,在K_(2)O-Al_(2)O_(3)-SiO_(2)三元相图上显示为低共熔点液相增长的速度和生成的液相量不同,在烧成收缩率-温度曲线图上表现为收缩速度和收缩率不同,铁胎的含铁量最高,液相增长的速度最快,液相生成量最多,烧结速度最快,完全烧结温度最低,烧结时收缩率最大;哥窑胎次之;朱砂胎再次;白胎的含铁量最低,液相增长的速度最慢,液相生成量最少,烧结速度最慢,完全烧结温度最高,烧结时收缩率最小。

龙泉市山地茄子品种的适应性评价

为拓宽丽水市龙泉市山地茄子的耕种区域,筛选出适合本地中低海拔(200~400 m)区域栽培的茄子品种,试验以10个山地茄子新优品种为试材,开展品种比较试验。结果表明,紫湘玉7号、紫龙5号表现出丰产性好、商品性佳、抗病性强、适应性强等优良特性,可作为丽水市山地(海拔200~400 m)茄子生产的主栽品种,推广前景较大。