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1.
The present paper describes the pollen morphology of 30 species belonging to 7 genera of Plumbaginaceae from China. The pollen grains were all examined under light microscope, and those of some species under scanning and transmission electron microscope.
The pollen grains of the family are subspheroidal, prolate or oblate, (37.5-74.5)× (40.4-81.9)μ in size, 3-colpate, rarely 4-6-colpate, only pancolpate in Ceratostigma willmottianum. The exine 2-layered, 2.0-7.4μ thick, sexine thicker than nexine, verrucate, reticulate or coarsely reticulate.
On the basis of the morphology, two types of pollen grains are distinguished in the
family:
(1) The pollen grains are 3-(rarely 4-6 ) or pancolpate, the exine verrucate. They are found in the tribe Plumbagineae (inculuding the genera Ceratostigma, Plumbago and Plumbagella).
(2) The pollen grains are all 3-colpate, the exine reticulate or coarsely reticulate. They are found in the tribe Staticeae (including the genera Acantholimon, Ikonnikovia, Goniolimon and Limonium ). 相似文献
2.
The pollen morphology of 11 species and 1 variety in the genus Lespedeza and its
allied genera (Campylotropis, Kummerowia) from NE China was examined under light and
scanning electron microscopes.
1. Lespedeza Michx. (plate 1:1-6; 2:1-6; 3:1-6; 4:1-2)
Pollen grains prolate, rarely subprolate or spheroidal, elliptic or rarely suborbicular in equa-
torial view, 3-lobed-rounded in polar view, tricolporate, colpus margins smooth or jagged. Polar
axis 20.7-33.1μm long, equatorial axis 15.4-20.9 μm long. Exine reticulate or foveolate, lu-
mina verrucose or smooth under SEM.
2. Campylotropis Bge. (plate 4:3-4)
One species in NE China, C. macrocarpa (Bge.) Rehd. Pollen grains prolate, elliptic in
equatorial view, 3-lobed-rounded in polar view, 3-colporate, colpus linear, 25.1μm long, 1.79μm
broad, colpus margins jagged, with a series of verrucae equal in size along one side visible
under SEM. Polar axis 19.7μm long, equatorial axis 14.6μm long. Exine reticulate, lumina
nearly rounded, verrucose at periphery under SEM.
3. Kummerowia Schindl. (plate 4:5-6)
Pollen grains spheroidal, oblate or prolate, elliptic in equatorial view, obtuse-triangular in
polar view, tricolporate, colups linear, 25.1μm long, 2.01μm broad, colpus margins sinuate.
Polar axis 24.7-27.9μm long, equatorial axis 19.7-26.6μm long. Exine reticulate or subreti-
culate, lumina nearly rounded, with verrocae visible under SEM.
According to the pollen morphology of Lespedeza and its allied genera, the division of
Lespedeza (s. lat.) into Lespedeza (S. str.), Campylotropis and Kummarowia by Schindler (1912)
is reasonable. The subdivision of Lespedeza (s. str.) into Sect. Macrolespedeza and Sect. Lespe-
deza by many botanists, and the treatment of Lespedeze juncea (L. f.) Pers. var. inschanica
Maxim. as an independent species (i.e. Lespedeza inschanics (Maxim). Schindl.) are also suppor-
ted by the pollen morphology shown in the present work. 相似文献
3.
4.
【目的】 调查医学论文中成组t检验的P值错误,分析错误原因,并提出相应措施。【方法】 选取236种医学期刊,每种期刊选取1项成组t检验,核验其P值,应用χ2检验、Mantel-Haenszel法、二项式logistic回归分析P值错误。【结果】 236项成组t检验中,50项存在P值错误。单因素分析结果显示,核心期刊与非核心期刊相比,P值错误发生率差异具有统计学意义(χ2=4.871,P=0.027);给出具体P值组与未给出具体P值组相比,P值错误发生率差异具有统计学意义(χ2=15.440,P<0.0001)。将是否给出具体P值作为混杂因素,比较核心期刊与非核心期刊P值错误发生率,差异无统计学意义(χ2=2.703,P=0.100)。多因素分析结果显示,是否方差齐(OR值为0.470,95%CI为0.230~0.961)、是否给出具体P值(OR值为5.459,95%CI为2.311~12.895)具有统计学意义。【结论】 医学论文成组t检验P值错误较多。为及时发现P值错误,期刊编辑应当重视对统计学方法应用条件的审查,要求作者给出统计描述以及统计推断的具体结果,能够利用简单易学的统计学软件核实P值。 相似文献
5.
【目的】 分析《湖泊科学》近10年的自引行为变化规律,剖析产生原因,思考期刊非正常自引现象,引导期刊自引的客观认识,更好地办好学术期刊。【方法】 根据《中国科技期刊引证报告(核心版)》的数据以及《湖泊科学》2006—2015年载文的参考文献,得到《湖泊科学》近10年的自引率(RSC),总被引频次(FTC),总自引频次(FSC),对影响因子(IF)有贡献的总被引频次(FTCIF)、自引频次(FSCIF),自引率(RSCIF),载文数量,平均引文数量以及IF等评价指标,分析各指标的变化趋势以及相互之间的关系。【结果】 在无人为操控的前提下,《湖泊科学》近10年RSC变化较小,FTC、FSC、FSCIF以及载文数量均有升高趋势,RSCIF略高于RSC,但是自引对IF无显著影响。【结论】 RSC与学科大小和研究范围有关。增加科研投入、提升期刊内容质量、应用数字化手段以及加大推广力度等因素导致了FTC、FSC和FSCIF等指标升高。期刊出现RSC过高或突然大幅度升高、FSCIF与IF有很强的相关性、RSCIF大大高于RSC等现象时,很可能是人为操控所致。中国科技期刊编辑只有自律自强,才能够使得中国科技期刊的学术质量真正获得国内科技工作者的认同并且在国际舞台上占有一席之地。 相似文献
6.
【目的】 探讨期刊影响力指数的科学合理性及其可能存在的不足,以利于决策者、办刊人以及作者更加科学地评估学术期刊影响力,预测期刊发展潜力。【方法】 以2015—2017年《中国学术期刊影响因子年报》的10个期刊指标数据为研究对象,运用IBM SPSS软件,采用主成分分析法,求得各期刊的综合主成分得分(F),按照F对期刊进行排名;将F与期刊影响力指数(fCI)排名结果进行对比分析;采用Spearman秩相关系数,比较fCI和F与10个指标的相关程度。【结果】 F与10个指标的相关性总体高于fCI;fCI和F与即年指标的相关系数相对较小,但是F明显高于fCI。【结论】 F排名更接近各项指标共同表征的期刊水平;更能反映期刊的反应速率和被引强度;在参阅期刊fCI排名时,应当特别注意参考期刊的即年指标。 相似文献
7.
中国种子植物特有属的数量分析 总被引:3,自引:0,他引:3
王荷生 《中国科学院研究生院学报》1985,23(4):241-258
Chinese flora with many endemic elements is highly important in the world’s
flora. According to recent statistics there are about 196 genera of spermatophytes, be-
ing 6.5% of total Chinese genera. These endemic genera comprising 377 species belong
to 68 families, among which the Gesneriaceae (28 genera), Umbelliferae (13), Compo-
sitae (13), Orchidaceae (12) and Labiatae (10) are predominant. The tropical type
containing 24 families and 80 genera is dominant. After it follows the temperate type
with 23 families and 50 genera. There are also 4 families endemic to China, i.e. Gin-
kgoaceae, Bretschneideraceae, Eucommiaceae and Davidiaceae. It shows that genera
endemic to China are obviously related to the tropical and temperate flora in essence.
The endemic monotypic genera (139) and endemic obligotypic genera (48) combin-
ed make up more than 95% of the total number of genera endemic to China. Phylo-
genetically more than half of them are ancient or primitive. The life forms of all ende-
mic genera are also diverse. Herbs, especially perennial herbs, prevail with the propor-
tion of about 62%, and trees and shrubs are the next, with 33%, and the rest are lianas.
Based upon the calculated number of genera endemic to China in each province and
the similarity coefficents between any two provinces, some conclusions may be drawn
as follows:
Yunnan and Sichuan Provinces combined are the distribution centre of genera en-
demic to China and may be their original or differentiation area, because numerous
endemic genera, including various groups, exist in these two provinces. The second is
Guizhou where there are 62 endemic genera. Others form a declining order, south
China, central China and east China. But towards the north China endemic genera de-
crease gradually, and the Qinling Range is an important distributional limit.
The largest simitarity coefficient, over 50%, appears between Shaanxi and Gansu
probably because of the Qinling Range linking these two provinces. But between any
other two provinces it is less than 30% and it is generaly larger between two south pro-
vinces than between two north provinces.
These characteristics mentioned above are correlated with topography and climate,
and they may be resulted from the diversification in geography and climatic influence
for a long time. 相似文献
8.
木兰科分类系统的初步研究 总被引:10,自引:0,他引:10
刘玉壶 《中国科学院研究生院学报》1984,22(2):89-109
A new system of classification of Magnoliaceae proposed. This paper deals mainly with taxonomy and phytogeography of the family Magnoliaceae on the basis of external morphology, wood anatomy and palynology. Different authors have had different ideas about the delimitation of genera of this family, their controversy being carried on through more than one hundred years (Table I). Since I have been engaged
in the work of the Flora Reipublicae Popularis Sinicae, I have accumulated a considerable amount of information and material and have investigated the living plants at their natural localities, which enable me to find out the evolutionary tendencies and primitive morphological characters of various genera of the family. According to the evolutionary tendencies of the characters and the geographical distribution of this family I propose a
new system by dividing it into two subfamilies, Magnolioideae and Liriodendroideae Law (1979), two tribes, Magnolieae and Michelieae Law, four subtribes, Manglietiinae Law, Magnoliinae, Elmerrilliinae Law and Micheliinae, and fifteen genera (Fig. 1 ), a system which is different from those by J. D. Dandy (1964-1974) and the other authors.
The recent distribution and possible survival centre of Magnoliaceae. The members of Magnoliaceae are distributed chiefly in temperate and tropical zones of the Northern Hemisphere, ——Southeast Asia and southeast North America, but a few genera and species also occur in the Malay Archipelago and Brazil of the Southern Hemisphere. Forty species of 4 genera occur in America, among which one genus (Dugendiodendron) is endemic to the continent, while about 200 species of 14 genera occur in Southeast Asia, of which 12 genera are endemic. In China there are about 110 species of 11 genera which mostly occur in Guangxi, Guangdong and Yunnan; 58 species and more than 9 genera occur in the mountainous districts of Yunnan. Moreover, one genus
(Manglietiastrum Law, 1979) and 19 species are endemic to this region. The family in discussion is much limited to or interruptedly distributed in the mountainous regions of Guangxi, Guangdong and Yunnan. The regions are found to have a great abundance of species, and the members of the relatively primitive taxa are also much more there than in the other regions of the world.
The major genera, Manglietia, Magnolia and Michelia, possess 160 out of a total of 240 species in the whole family. Talauma has 40 species, while the other eleven genera each contain only 2 to 7 species, even with one monotypic genus. These three major genera are sufficient for indicating the evolutionary tendency and geographical distribution of Magnoliaceae. It is worthwhile discussing their morphological characters and
distributional patterns as follows:
The members of Manglietia are all evergreen trees, with flowers terminal, anthers dehiscing introrsely, filaments very short and flat, ovules 4 or more per carpel. This is considered as the most primitive genus in subtribe Manglietiinae. Eighteen out of a total of 35 species of the genus are distributed in the western, southwest to southeast Yunnan. Very primitive species, such as Manglietia hookeri, M. insignis and M. mega-
phylla, M. grandis, also occur in this region. They are distributed from Yunnan eastwards to Zhejiang and Fujian through central China, south China, with only one species (Manglietia microtricha) of the genus westwards to Xizang. There are several species distributing southwards from northeast India to the Malay Archipelago (Fig. 7).
The members of Magnolia are evergreen and deciduous trees or shrubs, with flowers terminal, anthers dehiscing introrsely or laterally, ovules 2 per carpel, stipule adnate to the petiole. The genus Magnolia is the most primitive in the subtribe Magnoliinae and is the largest genus of the family Magnoliaceae. Its deciduous species are distributed from Yunnan north-eastwards to Korea and Japan (Kurile N. 46’) through Central
China, North China and westwards to Burma, the eastern Himalayas and northeast
India. The evergreen species are distributed from northeast Yunnan (China) to the
Malay Archipelago. In China there are 23 species, of which 15 seem to be very primi-
tive, e.g. Magnolia henryi, M. delavayi, M. officinalis and M. rostrata, which occur in
Guangxi, Guangdong and Yunnan.
The members of Michelia are evergreen trees or shrubs, with flowers axillary, an-
thers dehiscing laterally or sublaterally, gynoecium stipitate, carpels numerous or few.
Michelia is considered to be the most primitive in the subtribe Micheliinae, and is to
the second largest genus of the family. About 23 out of a total of 50 species of this
genus are very primitive, e.g. Michelia sphaerantha, M. lacei, M. champaca, and M.
flavidiflora, which occur in Guangdong, Guangxi and Yunnan (the distributional center
of the family under discussion) and extend eastwards to Taiwan of China, southern
Japan through central China, southwards to the Malay Archipelago through Indo-China.
westwards to Xizang of China, and south-westwards to India and Sri Lanka (Fig. 7).
The members of Magnoliaceae are concentrated in Guangxi, Guangdong and Yunnan
and radiate from there. The farther away from the centre, the less members we are
able to find, but the more advanced they are in morphology. In this old geographical
centre there are more primitive species, more endemics and more monotypic genera.
Thus it is reasonable to assume that the region of Guangxi, Guangdong and Yunnan,
China, is not only the centre of recent distribution, but also the chief survival centreof Magnoliaceae in the world. 相似文献
9.
引洮供水工程是以九甸峡水利枢纽为龙头,为改善甘肃省中部地区极度缺水现状而实施的跨流域调水工程。2010年和2020年水平年洮河下游总需水量分别为47.26×108m3和47.74×108m3,引洮需水量分别为2.14×108m3和6.04×108m3。在分析九甸峡梯级水库群特点的基础上,以尽可能满足引洮水量、洮河下游生产生活需水,以及下游生态用水为目标,建立了该系统的模拟调度模型,并确定了系统结构和调度原则。结合引洮工程实际情况,设定了三种方案,分别考虑2010年一期工程、2020年一期工程和2020年二期工程。通过长系列模拟计算,得出了各方案的水资源利用情况,模拟计算表明,不同水平年多年平均引洮水量和洮河下游经济社会、生态环境用水均可保证,但冲沙用水不能满足,三个方案缺水量分别为0.95×108m3、0.98×108m3和2.31×108m3;典型年计算结果表明,只有在来水较丰时,才能同时满足洮河下游需水量和引洮水量的需求,典型枯水年和平水年分别缺水11.51×108m3和3.13×108m3。 相似文献
10.
From standpoint of floristic division, Sichuan is located in the middle part
of Eastern Asiatic Region (Takhtajan 1978) or is the area where Sino-Himalayan Forest
Subkingdom and Sino-Japan Forest Subkingdom meet (wu 1979). Here exist many so-
called Arcto-Tertiary elements and newly originated species or races. In order to bring
the light the origin and differentiation of Eastern Asiatic elements, cytological investi-
gation on plants of this region are very significant. The materials of the following 5
species were collected on Mt. Emei in Sichuan Province. Voucher specimens are kept in CDBI.
1. Toricellia angulata Oliver var. intermedia (Harms) Hu
PMC meiotic examination revealed n = 12 at diakinesis (Pl. I fig. 9)
Toricellia, consisting of 2 spp., is endemic to Eastern Asiatic Region. Based on
our result along with the report of Toricellia tiliifolia (Wall.) DC. (2n=24) by Kuro-
sawa (1977), we argue that the basic chromosome number of Toricellia is 12. Many
authors, such as Airy-Shaw (1973), Dahlgren (1975, 1977), Takhtajan (1969, 1980),
Thorne (1983), have adopted Hu’s (1934) treatment erecting it as a monotypic family
Toricelliaceae. Its systematic position, whether closer to Cornaceae than to Araliaceae
or vice versa, has been in dispute. Cytologically it seems closer to Araliaceae, as shown
anatomically (Lodriguez 1971), because the basic chromosome number of Cornaceae s.
1. is x=11, 9, 8 (Kurosawa 1977), whereas that of Araliaceae is 12 (Raven 1975).
2. Cardiocrinum giganteum (Wall.) Makino
Somatic chromosome number, 2n=24 was determined from root-tip cells (Ph. I. fig.
8).
Cardiocrinum (Endl.) Lindl., consisting of 3 spp., is endemic to Eastern Asiatic
Region. C. giganteum (Wall.) Makino is distributed from Himalayan region to S. W.
China. The present report is in accord with the number reported by Kurosawa (1966)
who got the material from Darjeeling of India. However the karyotype of the present
plant is slightly different from that given by Kurosawa. In the present material, the
satellites of the 1st. pair of chromosomes and the short arms of llst. pair of chromoso-
mes are visibly longer than those of Kurosawa’s drawing (fig. 1, 2) The plants from
Yunnan, Sichuan and Hubei Provinces, named as C. giganteum var. yunnanense (Leit-
chtlin ex Elwes) Stearn, differ slightly from those of Himalayan region also in outer
morphological characters. The taxon needs both cytological and taxonomical further
studies.
3. Disporum cantoniense (Lour.) Merr.
PMC meiotic examination revealed n=8 at diakinesis (Pl. I. fig. 6)
This species is widely distributed from Himalayan region through Indo-China to
our Taiwan Province and Indonesia. Three cytotypes (2n=14, 16, 30) were reported for
the taxon including its variety, var. parviflorum (Wall) Hara, by various authors (Ha-
segawa 1932, Mehra and Pathamia 1960, Kurosawa 1966, 1971 Mehra and Sachdeva
1976a). Some authors consider D. pullum Salisb. and D. calcaratum D. Don as synonyms
of D. cantoniense. So D. cantoniense may be a species aggregate with different extreme
races. Sen (1973a, b.) reports that the somatic chromosome numbers of D. pullum
and D. calcaratum from Eastern Himalayan region are 14, 16, 28, 30, 32. He also
discovered that chromosome alterations in species of Disporum involve not only the num-
ber but the structure as well. He found that in species of Liliaceae where the reproduc-
tion is mainly vegetative, polysomaty often occurs. In China we have not only D. can-
toniense and D. calcaratum but also D. brachystomon Wang et Tang which is similar
to D. cantoniense var. parviflorum (Wall.) Hara. These taxa need further critical
studies.
4. Paris fargesii Franch.
PMC meiotic examination revealed n=5+2B (Voucher no. 112) or n=5 (Voucher
no. 62) at MI and AI (Pl. I. fig. 1. 4. 5.). This is the first report for the species. A
bridge and a fragment were also observed at AI.
Paris polyphylla Smith is extraordinarily polymorphic species. Hara (1969) re-
gards all chinese extreme forms, such as P. fargesii Franch., P. violacea Lévl., P. pube-
scens (Hand. -Mzt.) Wang et Tang, etc. as infraspecific taxa of P. polyphylla. Need-
less to say, the various races of P. polyphylla Smith in China need further critical stu-
dies and are good material for further study to understand the speciation.
5. Reineckia carnea(Andr.) Kunth
Reineckia is a monotypic genus endemic to Eastern Asiatic Region. In the present
material somatic chromosome number in root-tip cells is determined as 2n=38 (Pl. I. fig.
7). According to the terminology defined by Levan et al., the karyotype formula is
2n=28 m+10 sm. The length of chromosomes varies from 14.28 μ to 5.5 μ. The idiogram
given here (fig. 3) is nearly the same as that presented by Hsu et Li (1984). The same
number has been previously reported by several authors, Noguchi (1936), Satô (1942),
Therman (1956). The karyotype is relatively symmetrical (2B, accorling to the classi-fication of stebbins 1971) in accord with the opinion of Therman (1956). 相似文献
11.
12.
由T. R. Anderson等人提出的hT指数将全部被引频次都计算在内,但对它们采用的记分方式仍与h指数基本相同。这一新的指数优于J. E. Hirsch于2005年提出的h指数, 因为: ①从理论上说,它包含了全部的被引频次; ②它可适用于一些特殊的情况,例如只有少量高被引文章,避免出现假h指数; ③它具有较高的分辨能力等等。对 6 000多种中国学术期刊的hT指数进行了计算,并对计算结果进行了讨论。 相似文献
13.
从科学教学过程的特点来看,无论采用什么样的教学模武,都要遵循从感性认识到理性认识再到实践应用的教学过程,即都可归结为“感·知·用”教学模式。本文结合初中科学教学实践,对“感·知·用”科学教学模式进行了实践探索。 相似文献
14.
陕北农牧交错带土地利用变化及驱动机制分析 总被引:3,自引:1,他引:2
利用1986年、1993年及2003年3期Landsat TM遥感影像,借助遥感和GIS技术及回归分析方法,对陕北农牧交错带1986年~2003年土地利用变化及驱动机制进行了分析。结果表明,陕北农牧交错带土地利用综合程度总体较高,2003年达到36.5%,且土地利用正处于发展期;1986年~2003年土地利用变化以林地和建设用地大幅度增加和耕地、水域、未利用土地与沙地面积不断减少为主要特征。其中林地面积增加了44.18×104hm2,主要由耕地、草地和未利用土地转化而来;建设用地面积以近0.27×104hm2/年的速度增加,主要由耕地、草地、未利用土地和沙地转化而来;耕地面积减少了10.52×104hm2,减少的面积主要转化为林地和草地;沙地面积减少了20.67×104hm2。在空间上土地利用变化以南部和东南部黄土丘陵区沟壑区和毛乌素沙漠边缘地带最为明显。自然、人文和社会经济因素共同影响了土地利用变化,其中气候因素是驱动土地利用变化的重要自然因素,人口增长及社会投资的增加,工、农业产业化的发展直接驱动了土地利用变化。 相似文献
15.
窦井波 《中国科学院研究生院学报》2010,27(3):306-313
借助环绕定理和非线性分析技巧,研究如下一类带Hardy-Sobolev临界指数和权函数的半线性椭圆方程 - Δ u-μ u |x|2 =λu+K(x) |u|2*(s)-2u |x|s , x∈Ω; u=0, x∈Ω, 解的存在性,其中Ω是 R N具有光滑边界的有界开区域,0∈Ω,N≥5,0≤s≤2, 0≤μ≤ N-2 2 2, λ>0,K(x)是 上有界正函数. 相似文献
16.
针对SCI和SSCI数据库1997-2016年的研究文献,借助CiteSpaceIII和Alluvial flow等软件,通过“文献共被引聚类”、“标志性文献”、“突发文献”和“突现词”等指标开展了商业模式创新的可视化科学计量分析,揭示了20年间商业模式创新的研究热点及演化过程,探究了未来商业模式创新的新趋势。研究发现,商业模式创新的主要热点包括“价值创造”、“开源”和“商业模式挑战”等;热点呈现出由20世纪末期的“信息技术”,21世纪初的“互联网”、“电子商务”和“大规模定制”,发展到目前的“云制造”、“云计算”和“企业社会责任”等演进趋势;AMIT R、TEECE DJ、CHESBROUGH H和VENKATRAMAN N等人的相应研究成果是本领域热点文献;“虚拟现实”、“人工智能”、“3D打印”和“仿真研究”等有可能成为未来的商业模式创新热点。本研究可以促进商业模式创新的理论发展,为学者明确商业模式创新的研究方向,为企业开展商业模式创新提供指引和借鉴。 相似文献
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本文借鉴相关研究成果,首次将基尼系数分析方法引入工业企业R&D资源地区差异研究之中,在对我国工业企业R&D资源分布综合分析的基础上,计算了2000年我国工业企业R&D资源地区分布的区位基尼系数,用以分析各地区工业企业R&D资源分布情况. 相似文献
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今年,87岁的斯坦·李一手将神奇漫画公司打造为全世界最为成功的动漫王国,神奇漫画总共创造了5000多个漫画角色,90%以上知名的角色都由斯坦·李参与创作。半个多世纪以来,美国年轻人都是读着斯坦·李的作品长大的,其漫画作品在全世界的销量超过了20亿册,蜘蛛侠更是成为全世界最受欢迎的超级英雄。在美国,“神奇先生”斯坦·李已不仅仅是一个名人,而成为一个文化符号。如今,已届暮年的斯坦·李仍然“壮心不已”,前不久,他宣布将与迪士尼联手,推出三部新电影。 相似文献
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华北平原地下水资源可持续利用研究 总被引:14,自引:0,他引:14
本文通过对华北平原1991年~2003年系列地下水资源潜力及供需分析,浅层地下水总体处于采补平衡状态,但黄河沿岸及中东部平原古河道带尚有54.95×108m3/a潜力,而在山前平原的地下水位降落漏斗区地下水超采27.83×108m3/a;深层地下水除豫北平原、鲁北平原部分地区尚有一定潜力外基本处于严重超采,总超采量12.44×108m3/a;南水北调工程虽然无法从根本上解决水资源供需矛盾,但在短期内可满足经济发展对水资源的需求,因此利用南水北调的契机涵养水源是地下水可持续利用的基本保障。 相似文献
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我国作为碳排放大国,面临着碳达峰、碳中和(以下简称“双碳”)目标任务和国际碳减排压力。因此,准确的碳排放数据对于评估“双碳”目标和国际履约非常重要。联合国政府间气候变化专门委员会(IPCC)报告推荐将二氧化碳(CO2)观测与大气反演结合来“自上而下”地校验“自下而上”的碳排放清单,并指出加入大气14CO2观测可以更准确地校验碳排放清单。放射性碳同位素( 14C)是化石源CO2最准确的示踪剂,已被国际社会广泛推荐用于碳排放评估。文章基于大气14CO2观测的国际发展趋势和国内的紧迫状况,建议加大支持力度,建立大气14CO2观测网络;开展培训,统一相关标准,积极参与国际交流;尽快开展14CO2观测与大气反演相结合的研究。以此使我国的碳排放研究水平与国际接轨,并提高碳排放数据的可靠性,进而服务国家的“双碳”目标和气候外交谈判。 相似文献