Trend Analysis of Cancer Mortality in the Jinchang Cohort, China,2001-2010

Objective To describe the baseline data of cancers in the Jinchang Cohort, this paper examined trends in cancer mortality among adults investigated in Jinchang, Gansu province from 2001 to 2010. Methods Mortality data were collected from company departments through administrative documents, death certificates, etc. Trend analyses of cancer mortality were performed on the basis of 925 cancer deaths between 2001 and 2010. Results The crude mortality rate of cancer continuously increased from 161.86 per 100,000 in 2001 to 315.32 per 100,000 in 2010, with an average increase of 7.69% per year in the Jinchang Cohort （16.41% in females compared to 6.04% in males）, but the age-standardized mortality rate increased only in females. Thirteen leading cancers accounted for 92.10% of all cancer deaths. The five leading causes of cancer mortality in males were lung, gastric, liver, esophageal, and colorectal cancer, whereas those in females were lung, liver, gastric, breast, and esophageal cancer. Conclusion The overall cancer mortality rate increased from 2001 to 2010 in the Jinchang Cohort, with greater rate of increase in females than in males. Lung, breast, and gastric cancer, in that order, were the leading causes of increased cancer mortality in females.

Heavy Metal Assessment among Chinese Nonferrous Metal-exposed Workers from the Jinchang Cohort Study

Environmental exposure to heavy metals has been linked to a wide range of human health hazards. We detected the levels of 15 metals in urine samples from 500 representative sub-samples in an ongoing occupational cohort study （Jinchang Cohort） to directly evaluate metal exposure levels. Fifteen metals, namely As, Ba, Be, Cd, Cs, Cr, Co, Cu, Pb, Mn, Ni, Se, TI, U, and Zn, were detected by inductively coupled plasma quadruple mass spectrometry. The results showed that median creatinine adjustment and geometric mean urinary metal levels were higher in the heavy metal-exposed group, except Se and Zn, than other reported general or occupational populations. Further studies should address the effects of heavy metals on human health.

A Retrospective Cohort Mortality Study in Jinchang,the Largest Nickel Production Enterprise in China

Nickel is an essential trace metal used in the occupational setting, resulting in both occupational and nonoccupational exposures to individuals at varying levels. Exposure to nickel has been associated with several toxicities and the International Agency for Research on Cancer has concluded that there is sufficient evidence in humans associating exposure to nickel compounds with risk of lung cancer and sinonasal cancer. This study confirmed a significant excess of mortality from diseases of the lung including silicosis, lung cancer, and cor pulmonale among workers involved in nickel mining or smelting in China.

Landscape Architecture Development Path of Water Resource-Scarcity Cities: Summary of Jinchang City's Efforts in Constructing National Garden City

Jinchang City, a city with scarce water resources, has developed through 32 years of efforts from a small town in the Gobi desert into a medium modern city, and green coverage ratio of the downtown area has risen from 2.6% before the founding of the city to 36.11%. This paper summarized the measures adopted by Jinchang City for building national garden city.

Geology and Genesis of the Superlarge Jinchang Gold Deposit,NE China

The superlarge Jinchang gold deposit is located in the joint area between the Taipingling uplift and the Laoheishan depression of the Xingkai Block in both eastern Jilin and eastern Heilongjiang Province. Wall rocks of the gold deposits are the Neoproterozoic Huangsong Group of metamorphic rocks. Yanshanian magmatism in this region can be divided into 5 phases, the diorite, the graphic granite, the granite, the granite porphyry and the diorite porphyrite, which resulted in the magmatic domes and cryptoexplosive breecia chimney followed by large-scale hydrothermal alteration. Gold mineralization is closely related to the fourth and fifth phase of magmatism. According to the occurrences, gold ores can be subdivided into auriferous pyritized quartz vein, auriferous quartz-pyrite vein, auriferous polymetailic sulfide quartz vein and auriferous pyritized calcite vein. The ages of the gold deposit are ranging from 122.53 to 119.40 Ma. The ore bodies were controlled by a uniform tectono-magmatic hydrothermal alteration system that the ore-forming materials were deep derived from and the ore-forming fluids were dominated by magmatic waters with addition of some atmospheric water in the later phase of mineralization. Gold mineralization took place in an environment of medium to high temperatures and medium pressures. Ore-forming fluids were the K^＋-Na^＋-Ca^2＋-Cl^--SO4^2- type and characterized by medium salinity or a slightly higher, weak alkaline and weak reductive. Au in the ore-forming fluids was transported as complexes of [Au （HS）2]^-, [AuCl2]^-, [Au（CO2）]^- and [Au（HCO3）2]^-. Along with the decline of temperatures and pressures, the ore-forming fluids varied from acidic to weak acidic and then to weak alkaline, which resulted in the dissociation of the complex and finally the precipitation of the gold.

Characteristics and origin of ore-forming fluids of Jinchangqing gold (copper) ore deposit (s) in Xiangyun, Yunnan Province

On the basis of results of the studies of primary fluid inclusions, and the hydrogen and oxygen isotope data, the authors concluded that the early-stage ore-forming fluid from the Jinchangqing gold (copper) ore deposit is a kind of sulfate type hot brine characterized by medium temperature and salinity, genetically related to the late-stage ore-forming fluid derived from an acidic and more reductive environment. However, the late-stage ore-forming fluid is a sort of low temperature and low salinity chloride-type hot brine which originated from a lower pressure, acidic and more oxidative environment. In general, the ore fluids were derived from the late-stage, or largely from the early-stage groundwater-derived meteoric water, which has a 12‰-17‰ heavier oxygen isotopic composition than the original rain water (δ{}+{18}O={-15.3‰}), and were formed during gold mineralization as a product of oxygen isotope exchange during the reaction between ore-forming fluid and wall rocks under a lower water/rock ratio condition.

金昌市PM_(2.5)的化学组分特征及来源分析

为研究金昌市PM_(2.5)及其化学组分(有机碳、元素碳和水溶性离子)的特征,于2020年5月—2021年3月对金昌市大气PM_(2.5)进行手工采样,并运用PMF模型和HYSPLIT模型解析污染来源.研究结果表明,观测期间金昌市PM_(2.5)年平均质量浓度为(62.2±10.4)μg·m^(−3),各季节平均质量浓度由高到低依次为春季、冬季、秋季、夏季.化学质量闭合研究表明:碳质组分(OM+EC)是金昌PM_(2.5)的主要组成部分.PM_(2.5)中的OC与EC的年平均质量浓度分别为(13.4±5.6)μg·m^(−3)、(2.9±1.5)μg·m^(−3),TC占PM_(2.5)质量浓度的16.3%,并且四季OC/EC的平均值均大于2,表明采样期间各个季节均存在二次污染.夏季OC与EC之间的相关系数最低,说明夏季污染物来源较其他季节更为复杂.金昌市PM_(2.5)中总水溶性离子的年平均质量浓度为(25.0±11.6)μg·m^(−3),占PM_(2.5)质量浓度的40.2%,其中,SO_(4)^(2−)、Ca^(2+)、NO_(3)^(−)和Cl^(−)是金昌市主要的4种离子,分别占总离子的22.5%、17.1%、16.8%、12.1%.对水溶性离子做离子平衡分析表明:夏季、秋季和冬季阴阳离子的相关性较好,没有重要的离子缺失,春季较差,有重要阴离子缺失.PMF模型表明金昌市PM_(2.5)的主要污染源为燃烧源(生物质+燃煤)(30.5%)、土壤尘(24.6%)、二次无机气溶胶(26.0%)和机动车尾气(18.9%),HYSPLIT模型表明金昌市春季PM_(2.5)浓度受外来污染源输入影响较大,夏季、秋季和冬季应主要考虑本地排放的贡献.

金昌市近20年土地利用时空变化分析

为探究金昌市土地利用的时空变化特征,基于2000—2020年5期土地利用数据,运用ArcGIS系统分析了金昌市近20年土地利用类型时空变化特征和各时期土地利用类型转移状况。结果表明,金昌市主要的土地利用类型以未利用地、草地和耕地为主,具体面积为未利用地>草地>耕地>建设用地>林地>水域,草地和林地主要集中分布在南部及北部荒漠草原区,耕地主要分布于中部平原区及双湾镇南部,建设用地集中分布于宁远堡镇城区,水域呈点状化零星分布于南部地区。近20年,耕地、建设用地、未利用地、水域面积分别增加13300、10900、2500、400 hm2,林地和草地面积分别减少1800、23300 hm2。土地利用转化主要集中在新城子镇、东寨镇、六坝乡及焦家庄北部地区,主要表现为草地向未利用地、耕地的转化以及耕地向未利用地的转化,西南部的皇城镇转化率较低,北部的红沙岗和双湾镇主要为未利用地。受到气候条件和人类活动的干扰,土地利用类型的转化较为活跃,主要表现为未利用地和草地之间的相互转化。中部工业发达,人类活动较强,土地利用类型的转化呈点状不连续分布。

金昌市寒旱特色农业产业高质量发展研究

甘肃省农耕文化底蕴深厚,高寒干旱气候条件的土地资源丰富,农业产业发展优势众多,金昌市依托其显著的寒旱气候条件、集中的寒旱农业区域、成熟的寒旱农业技术和典型的寒旱农业产业品牌,探索出一条新时代寒旱特色农业产业发展道路,既引领“特色”方向,又契合“质高”定位,同时考虑到“寒旱”特质。文章梳理了金昌市寒旱特色农业产业的发展概况、种植规模、产业体系、品牌建设情况等,深入分析了金昌市寒旱特色农业产业高质量发展中存在的问题,如产业基础薄弱、产业融合程度低、产业链结构单一、农产品附加值低、产业品种结构欠合理、生产经营体系不完善等,并从发掘新质生产力角度提出了形成“科技—产业”良性循环、畅通“产业—金融”循环、坚守新质生产力提出的“质优”这个创新边界等推动金昌市寒旱特色农业产业高质量发展的对策建议。

基于InVEST模型的金昌市生境质量评估与生态修复策略研究

文章综合研究了金昌市生态环境评估及生境质量的修复策略,针对面临城市化和工业化压力的地区生态系统服务和生物多样性的保护提供了科学依据和有效方案。通过应用InVEST模型,分析了土地利用变化、工业活动和气候变化对生境质量的影响,重点关注生境适宜性分析、生境退化评估及生态修复策略。研究表明,金昌市生境质量由高至低分布不均,受到土地利用模式、人类活动强度的显著影响。为此,提出了针对不同退化程度地块的生态修复措施,包括农业生态系统服务策略、边界绿化策略、社区参与策略等,旨在提升生境质量,恢复生态功能。通过生态修复策略的实施,旨在促进金昌市及类似生态脆弱区域的可持续发展,为未来的生态保护和景观优化提供参考。

乡村文化振兴研究分析——基于金昌市的独特地域性

乡村振兴战略,是全面推进农业农村现代化的重要举措,是中华民族伟大复兴进程的一部分。乡村文化振兴作为乡村振兴的重要环节,能够为乡村振兴凝心铸魂。乡村文化振兴已经取得了一定的成效,为全面推进乡村振兴提供了精神动力。由于各个地区发展的情况制约,乡村文化振兴的进步大不相同,并且存在一定的困境。因地制宜、因时制宜,在乡村文化振兴中就显得尤为重要。

“人-地-业”协调与区位优势双重视角下农村居民点整理——以河西走廊金昌市为例

内部要素结构的协调性和区域外部环境的差异性对农村居民点系统演化与分异起主导作用,并对农村居民点整理提出不同要求。立足于人地关系地域系统理论,以甘肃省河西走廊金昌市为例,在分析133个行政村“人–地–业”系统耦合协调水平和区位优势度的基础上,构建农村居民点整理分区概念模型并提出类型。研究结果表明:(1)金昌市农村居民点“人–地–业”系统耦合协调水平空间差异显著,整体处于一般协调阶段,在区位上具有明显的城镇指向和交通指向特征;(2)农村居民点区位优势度由城镇中心向外围基本呈3级递减态势,同时受道路网络密度和交通干线级别影响,高优势度区域向不同方向做出不同程度的延伸;(3)对“人–地–业”协调与“城镇–道路”区位优势进行叠置分析,结合研究区实际情况,划分优化提质类、融合发展类、优化调整类、逐步推进类、引导发展类和改造拆迁类6种整理类型,并提出相应的整理思路与策略。为金昌市农村居民点整理和农村人居环境改善提供一定的理论依据,为乡村土地可持续利用提供借鉴。

黑龙江金厂斑岩型富钴矿床钴赋存状态和富集规律研究

斑岩型矿床作为典型的岩浆热液型矿床,为我国及世界提供了大量的铜、钼、金,以及铼、硒、碲等关键矿产。然而目前尚无典型富钴斑岩型矿床的报道。黑龙江金厂矿床为一大型斑岩型金矿,探明金资源量76t,伴生铜资源量4683t。金厂矿化类型可分为隐爆角砾岩筒型、裂控型和细脉浸染型,前期研究揭示角砾岩型矿化伴生钴的富集。手持X射线荧光分析结果显示金厂矿床J0角砾岩型矿石中存在明显的钴富集,钴含量为237×10^(-6)~5256×10^(-6)。扫描电镜和电子探针分析揭示钴主要以类质同象形式在黄铁矿中富集,其次赋存在硫镍钴矿和辉砷钴矿中。根据黄铁矿产状与共生矿物组合,将黄铁矿分为三种不同的类型:Ⅰ型、Ⅱ型和Ⅲ型黄铁矿。Ⅰ型黄铁矿为早期生成的与磁铁矿共生的自形黄铁矿,并可进一步分为钴均匀富集型(I-1)和核部富钴型(I-2)两个亚类。Ⅱ型黄铁矿为晚期生成的半自形-自形黄铁矿,多被黄铜矿、石英、碳酸盐矿物包裹,可进一步分为边部富钴型(Ⅱ-1)、幔部富钴型(Ⅱ-2)和具有复杂钴环带型(Ⅱ-3)三个亚类。Ⅲ型黄铁矿为晚期石英-黄铁矿脉中的半自形-自形黄铁矿,内含石英或硅酸盐矿物包裹体。含Ⅰ型黄铁矿的样品钴含量最高(约1800×10^(-6)~5200×10^(-6)),含Ⅱ型黄铁矿的样品钴含量中等(约800×10^(-6)~1600×10^(-6)),而含Ⅲ型黄铁矿的样品中钴含量相对较低(约240×10^(-6)~360×10^(-6))。早期形成的样品具有较高的钴含量,说明钴的富集可能主要发生在矿床形成的早期。值得注意的是含有Ⅰ型黄铁矿的矿石最具钴资源开发潜力,选矿过程中应留意此类型矿石。通过总结前人发表的金厂矿床硫、氢-氧、铅、铼-锇和氦同位素数据,作者提出金厂矿床中的钴极有可能来源于深部的幔源岩浆。本文对金厂矿床富钴特征的研究将为斑岩型富钴矿床提供范例。

乳腺癌发病影响因素的巢式病例对照研究

目的探索女性人群乳腺癌发病的影响因素,为乳腺癌的防治提供科学依据。方法基于金昌队列,以2014-2020年中3次随访新发乳腺癌者96例为病例组,按照年龄(±2岁)1∶2个体匹配的方法,以同期随访未发生癌症的192例为对照组。采用条件Logistic回归模型、限制性立方样条模型及相乘和相加交互模型探讨乳腺癌发病的影响因素及因素间的交互作用。结果多因素条件Logistic回归模型结果显示体重指数(BMI)≥24 kg·m^(-2)、血清低密度脂蛋白胆固醇(LDL-C)水平异常的人群乳腺癌发病风险增加,分别是BMI<24 kg·m^(-2)组、LDL-C水平正常组的1.87倍(OR=1.87,95%CI:[1.05,3.34])、2.66倍(OR=2.66,95%CI:[1.39,5.08]),且LDL-C及BMI水平与乳腺癌发病风险间存在正向线性剂量-反应关系(LDL-C:总趋势P=0.001,非线性P=0.413;BMI:总趋势P<0.001,非线性P=0.376),但未发现两者的交互作用。结论超重/肥胖和LDL-C异常是乳腺癌发病的危险因素,且BMI、LDL-C和乳腺癌的发病风险间存在正向线性剂量-反应关系。

血清重金属与胃癌发病风险的巢式病例对照研究

目的探究血清铜、钴和铅3种重金属对胃癌发病的影响。方法以金昌队列为数据平台,收集2014—2020年队列3次随访期间新发的148例胃癌患者为病例组,按照性别、年龄±2岁进行1∶4个体匹配获得592例同期对照。通过条件Logistic回归模型和限制性立方样条法探讨血清3种重金属与胃癌发病的关系及剂量-反应关系。结果多因素条件Logistic回归分析结果表明,与血清铜水平[100.00,853.14]μg·L^(-1)组相比,≥990.63μg·L^(-1)组胃癌发生风险增加了108%(OR=2.08,95%CI:[1.18,3.66]);与血清钴水平≤0.20μg·L^(-1)组相比,[0.21,0.35]μg·L^(-1)和≥0.36μg·L^(-1)组的胃癌风险分别增加了730%(OR=8.30,95%CI:[4.48,15.35])和883%(OR=9.83,95%CI:[5.14,18.79]);与血清铅水平≤4.00μg·L^(-1)组相比,≥4.01μg·L^(-1)组胃癌发生风险增加了108%(OR=2.08,95%CI:[1.29,3.35])。另外,血清铜、钴和铅水平与胃癌发病风险间均存在剂量-反应关系。结论血清铜、钴和铅是胃癌发病的危险因素,应定期监测人群血清重金属水平。

云南墨江金厂金矿床成矿特征和成矿作用

墨江金厂金矿床是哀牢山金成矿带的重要矿床之一,具有独特的地质成矿特征。目前多个学者对墨江金矿床进行了研究工作,此矿床的成因是众多学者讨论的焦点。文章基于野外地质调查情况,根据矿床地球化学分析,对云南墨江金厂金矿床中成矿流体演化过程进行讨论,对成矿阶段做出明确的划分,并确定成矿流体来源,旨在深入了解此矿床的成因及成矿规律,为判断墨江金矿的成矿过程、矿床成因以及成矿阶段划分提供依据。

韭黄砂罐覆盖软化高效栽培技术

为促使金昌地区韭黄产业实现规模化生产和高质量发展,金昌市农艺研究院科技人员通过生产技术创新和多年试验研究,从品种选择、种植地选择、育苗、移栽定植、田间管理、遮光软化、病虫害防治、适时采收等方面总结提出了金昌地区韭黄砂罐覆盖软化高效栽培技术,该技术可实现韭黄定植第2年全年生产,产量高达30000 kg/hm^(2),经济效益显著。

引硫济金工程输水效率及水资源优化利用分析

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