首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   61758篇
  免费   13350篇
  国内免费   13055篇
测绘学   5892篇
大气科学   8987篇
地球物理   12403篇
地质学   35573篇
海洋学   8733篇
天文学   3082篇
综合类   4633篇
自然地理   8860篇
  2024年   64篇
  2023年   654篇
  2022年   1773篇
  2021年   2039篇
  2020年   2286篇
  2019年   2165篇
  2018年   1961篇
  2017年   2373篇
  2016年   2291篇
  2015年   2615篇
  2014年   3297篇
  2013年   3496篇
  2012年   3765篇
  2011年   3968篇
  2010年   3358篇
  2009年   4086篇
  2008年   4114篇
  2007年   4663篇
  2006年   4516篇
  2005年   3970篇
  2004年   3660篇
  2003年   3446篇
  2002年   3088篇
  2001年   2638篇
  2000年   2598篇
  1999年   2452篇
  1998年   2062篇
  1997年   1741篇
  1996年   1595篇
  1995年   1324篇
  1994年   1333篇
  1993年   1148篇
  1992年   912篇
  1991年   639篇
  1990年   524篇
  1989年   446篇
  1988年   318篇
  1987年   217篇
  1986年   157篇
  1985年   107篇
  1984年   44篇
  1983年   36篇
  1982年   38篇
  1981年   26篇
  1980年   26篇
  1979年   32篇
  1978年   37篇
  1977年   25篇
  1975年   5篇
  1954年   19篇
排序方式: 共有10000条查询结果,搜索用时 15 毫秒
1.
基于15 d的精密卫星钟差数据,从不同角度全面分析6种常用钟差预报模型(LP模型、QP模型、GM模型、SA模型、ARIMA模型、KF模型)基于钟差一次差分预报原理的预报效果,得到以下结论:1)采用钟差一次差分预报原理,可以提高LP模型、SA模型、GM模型及KF模型对于GPS卫星钟差的3 h预报精度,提高QP模型和ARIMA模型对于ⅡF Rb钟的3 h预报精度,提高LP模型和GM模型在6 h和12 h预报中的精度,提高ARIMA模型在6 h、12 h和24 h预报中的精度;2)基于钟差一次差分预报原理的预报结果与卫星及其星载钟类型有关,对于GPS BLOCK ⅡF Rb钟,该预报原理可以提高6种模型的短期预报精度,特别是对GM模型、LP模型和ARIMA模型预报效果的改善最为显著;3)对于3 h和6 h的预报,采用钟差一次差分预报原理的LP模型(DLP模型)对应的RMS值都最小,即DLP模型的预报精度最高,说明钟差一次差分数据更适合一次多项式模型的短期预报。  相似文献   
2.
In order to study the sedimentary environment characteristics of the Late Paleozoic in Kala area of Western Sichuan Province, the authors have conducted the petrological and geochemical analyses of the widely distributed silicate in Qiongyi Formation of Lower Carboniferous and Kawenggou Formation of Upper Permian. The results show that the silicate in the study area belongs to the pure siliceous rocks, with a continuous supply of land-based materials during the deposition process. The average Al/(Al+Fe+Mn) ratio is 0.62, and the silicate shows a biogenic origin by the Al-Fe-Mn diagram. The ratios of Al2O3/ (Al2O3+ Fe2O3), Th/U, Th/Sc, (La/Ce)N and (La/Yb)N and tectonic environment discriminant diagram demonstrate that the silicate developed in a shallow-slope depesitional environment in the continental margin. The Ceanom value is -0.04 to 0.07, and it gradually increases from the Carboniferous to the Permian period, indicating the water body is in an anoxic environment with gradually increasing reducibility. The Garz--Litang basin opened in the Carboniferous period, in accordance with the regional geological evolution, and it continued to expand during the Permian period, with the gradually increasing depth of the seawater within the sedimentary basins.  相似文献   
3.
桐木山云英岩型锡矿床是湘东锡田锡多金属矿田中一个典型矿床,在详尽的野外考察、矿石结构观察以及流体包裹体岩相学研究的基础上,采用流体包裹体组合的研究方法,利用冷热台、激光拉曼等测试手段,对矿床中锡石中流体包裹体进行直接测定,同时开展与锡石共生的石英及切割矿体的后期石英脉石英中流体包裹体对比研究。结果显示,锡石中流体包裹体的组分、均一温度、盐度与共生的石英存在明显差异,表明锡石与石英形成的P-T-X条件不同。切割矿体的石英脉为成岩成矿后流体作用的产物。与锡石形成相关的流体为中高温、中低盐度的Na Cl-H_2O流体体系,与石英形成相关的流体为复杂的含碳流体。流体体系的冷却作用及流体与围岩的反应可能是导致锡石沉淀的主要因素,与石英形成相关的流体在演化过程中则经历了明显的流体不混溶作用。  相似文献   
4.
We report on a hexactinellid sponge new to science, Walteria demeterae sp. nov., which was collected from the northwestern Pacific seamounts at depths of 1271–1703 m. Its tubular and basiphytous body, extensive lateral processes, numerous oval lateral oscula which are irregularly situated in the body wall, the presence of microscleres with oxyoidal, discoidal and onychoidal outer ends, and the absence of anchorate discohexasters, indicate it belongs to the genus Walteria of family Euplectellidae, which is also supported by molecular phylogenetic evidence from 18S, 28S, 16S rRNA and cytochrome c oxidase subunit I (COI) gene sequences. The unique morphotype, which is structured by a thin and rigid framework of body wall and lateral processes consisting of diactins, characterizes it as a new species. Local aggregations of individuals of this new species coupled with their associated macrofauna in the Suda Seamount are reported, highlighting its functional significance in providing biogenic microhabitats in the deep sea.  相似文献   
5.
三江源地区美丽中国建设存在的问题、成功案例与启示   总被引:1,自引:0,他引:1  
杨建平  康韵婕  唐凡  秦彧 《冰川冻土》2021,43(5):1551-1559
长江、黄河与澜沧江源区(简称三江源区)是中华与亚洲“水塔”,是我国重要的生态安全屏障与水安全保障,是三大河流域经济带的共有源地,稳藏固疆的战略要地,美丽中国建设的战略高地。掌握该地区美丽中国建设进程,发现存在的问题,及时总结典型成功案例,有助于更好建设美丽高原,服务生态文明建设与社会经济高质量发展的全国战略部署。就建设内容与进程看,目前三江源区整体仍处于物质建设阶段,除畜牧业外,缺乏其他产业,忽视文化建设,美丽缺少内涵、不可持续;就建设成效而言,美丽乡村与美丽城镇工程建设成绩显著,但配套设施严重滞后,以及游牧文化与聚落文化的冲突,美丽仍流于形式;尽管存在这些问题,但亦涌现了若干成功案例,“岗龙模式”和“甘达模式”尤为典型,为三江源其他地区美丽中国建设提供了样板与发展启示:(1)找准优势资源,最大化资源潜力、实现经济“美”是高原美丽中国建设成功的物质基础;(2)领导人/团队/致富带头人是高原美丽中国建设成功的关键核心;(3)产业与因地制宜的运作机制是高原美丽中国建设可持续的强大支撑与必由之路;(4)不断探索永远走在发展路上是美丽中国建设成功的坚实动力。  相似文献   
6.
Zhejiang Province, located in the Yangtze River Delta region, is representative of China's economically developed areas. It enjoys superior natural conditions and a long history of agriculture, and is a comprehensive agricultural area with integrated development of agriculture, forestry, animal husbandry and fishery. It has nurtured the farming culture represented by Hemudu culture and Liangzhu culture, which have given rise to numerous precious Agricultural Heritage Systems. At present, Zhejiang Province has three of the world’s Globally Important Agricultural Heritage Systems (GIAHS) and 12 China Nationally Important Agricultural Heritage Systems (China-NIAHS), so it not only has the largest number of heritages in China, but it has also attained remarkable achievements in heritage conservation. Taking Zhejiang Province as an example in combination with the rural revitalization strategy, this paper summarizes the achievements in the protection of Important Agricultural Heritage Systems (IAHS) in Zhejiang Province during the past 15 years from the aspects of increasing farmers’ income, cultural Inheritance and industrial upgrading, as well as the conservation experiences in government promotion, community initiative, enterprise participation, technology driving and social linkage. Further, in view of the problems that exist in the current heritage protection,such as imperfect management of heritage sites, low participation of community residents, lack of special protection funds, and imperfect provincial management system,the following countermeasures and suggestions are put forward: (1) Improve the management mechanism for the conservation and development of Agricultural Heritage Systems; (2) Develop regional public branding of agricultural products in Agricultural Heritage System sites; (3) Increase the Agricultural Heritage System science education as well as cultural and creative product development; (4) Carry out the evaluation and recognition of IAHS at the provincial level; and (5) Provide substantial support and input to the conservation and utilization of IAHS. This study can provide some guidance for the conservation of IAHS in Zhejiang Province and it provides important reference for IAHS in the economically developed areas in China.  相似文献   
7.
基于2018年12月至2020年3月喀左、沈阳、辽阳、满洲里4个国家级地面气象站人工冻土器与测温式冻土自动观测仪观测的资料,对人工冻土观测获得的冻点与测温式冻土自动观测仪获得的相应深度的温度进行对比分析。结果表明:人工冻土器获取的冻点对应的土壤温度与0℃总体一致,又不完全重合;0—35 cm深度范围,冻点对应的温度变化范围为-2~6℃,呈现跳跃性变化。35 cm以下深度范围,冻土冻点对应的温度变化范围为-0.5~1.0℃;融化过程冻点对应的平均温度高于冻结过程冻点对应的平均温度。从完全融化时间上来看,人工冻土器观测到的完全融化时间晚于测温式冻土仪0℃线完全消失的时间。人工冻土观测的实质是获得土壤温度0℃点所在位置。灌注不同台站水的冻土器内管在相同的温度环境下,冻结与融化状态无明显区别;人工冻土器内管冻结过程是温度和持续时间双重作用的结果,深层土壤温度变化缓慢,使得内管中的水冻结和融化需要的时间长。另外,作为接触式测温设备,减小外因产生的时滞是提高其灵敏度的重要环节,建议测温式冻土仪的外管壁使用温度滞后效应更小的金属外管。  相似文献   
8.
利用福建重力台网7套gPhone重力仪的连续观测资料,对不同震中距和震级地震的同震响应特征及重力仪映震的最大震中距进行分析。结果表明:1)福建重力台网的映震效能受震级和震中距影响,从映震能力来看,泉州台优于莆田台,厦门台优于福州台,漳州台和龙岩台优于南平台;2)福建重力台网的仪器稳定性好和灵敏度高,与CMG-3ESP 120S地震计相比,重力仪具有较宽的地震频带,其同震响应持续时间与波幅呈高度正相关性;3)福建重力台网仪器映震的最大震中距(Δ)与震级(MS)存在对应关系,具体公式为MS=-0.218(logΔ)3+2.056(logΔ)2-4.594logΔ+6.459。  相似文献   
9.
Seamounts are vulnerable ecosystems in the deep sea and can be heavily impacted by human activities, such as bottom fishing and deep-sea mining. The species composition and distribution patterns of benthic fauna is key information for the designation of marine protected areas and environmental management plans. Three contracts for cobalt-rich crust exploration have been granted to China, Japan and Korea in the Northwest Pacific Ocean by the International Seabed Authority. However, our knowledge of benthic biodiversity in this area is extremely insufficient. During 2013–2020, eight Chinese Ocean Mineral Resources R&D Association (COMRA) cruises were conducted to investigate the benthic assemblages of nine seamounts in this region. In this study, 191 ophiuroids collected from seamounts in the Northwest Pacific were identified into 29 species in 11 families. Ophiacanthidae and Euryalidae were the two most dominant families with 12 and 6 species, respectively. Ophiotomidae and Ophiopyrgidae were represented by two species each, while seven families were represented by only one species. Four species were widely distributed among 4–5 seamounts, and 17 species were found only at a single site. An integrated regional taxonomic dataset of Ophiuroidea was generated and analyzed. A total of 23 and 14 species were obtained from the Magellan Seamount Chain (MSC) and the Marcus-Wake seamounts (MWS), respectively, with 8 species shared between the two seamount groups. The individual-based rarefaction curves did not reach an asymptote, suggesting that the sampling effort was inadequate for either the entire region or each single seamount. Most species distributed in a narrow depth range, and the species composition was different between water depths above and below 2000 m. Our results greatly improve the understanding of megafaunal biodiversity from seamounts in the Northwest Pacific Ocean, and highlight the necessity of further surveys to provide more robust information for environmental protection and management in this region.  相似文献   
10.
人类活动和自然因素共同但有区别的作用引起了长江口及邻近海域富营养化,造成夏季底层水体低氧现象加剧,成为近海生态健康恶化的重要征兆。本文梳理了国内外学者在该海域低氧研究中获得的重要认识,分析了底层水体溶解氧的潮周期尺度、事件尺度和年际尺度的变化特征,重点从层化与物质输运角度,介绍了长江冲淡水、台湾暖流、海洋锋面、风和潮等过程影响底层水体中氧气消耗或补充的机制,揭示了本海域主要低氧现象分别位于长江口和浙江近海的特征,对比了两处低氧区形成与演变的异同机制。目前,对低氧形成机制的定性认识和多尺度变化特征的了解已经有较好的基础,未来需要从多学科交叉角度加强现场试验和定量研究,掌握低氧的长期演变趋势,研发底层水体低氧的预测预警技术,支撑我国河口近海的生态预警监测工作。  相似文献   
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号