中国西南干旱研究进展综述
最近十几年,中国西南地区出现了极端干旱事件频发的态势,对当地的农业、水资源、生态系统以及社会经济造成了严重的影响。西南干旱已成为政府和学术界高度关注的热点问题,国内外学者针对中国西南干旱事件开展了一系列的研究工作。虽然该领域的研究进展较快,但仍缺乏综合性和系统性,因此作者对中国西南干旱的科研成果和发展动态进行了系统的归纳和总结,并希望对今后的研究有所启示。目前而言,对西南干旱的研究主要可以分为两类:一是对西南地区过去和未来干旱演变特征的分析和预估,二是对西南干旱事件发生的大尺度环流背景和成因分析。研究表明,过去50年,西南干旱事件发生的频率增加、强度也增强,而且干旱风险在21世纪很可能将继续增加。但是关于西南干旱成因和预估的一些关键问题还存在争议,特别是海洋强迫和大气环流异常影响西南干旱的过程和机制尚不完全清楚。同时,复杂的非线性相互作用对理解和预测西南干旱也构成严峻的挑战。尽管目前对西南干旱事件发生规律和机理的认识有限,但采取措施有效应对干旱的影响已刻不容缓。
关键词:干旱,中国西南,历史变化,未来预估,机理
下载地址:
http://159.226.119.58/aosl/EN/abstract/abstract570.shtml
相关链接:
https://www.doczj.com/doc/0316759687.html,/syky/201506/t20150615_4373967.shtml
https://www.doczj.com/doc/0316759687.html,/newsroom/research_news/201506/t20150616_148920.shtml
P R E L I M I N A R Y A C C E P T E D V E R S I O N
Drought in Southwest China: A Review
WANG Lin 1 , CHEN Wen 2, ZHOU Wen 3, and HUANG Gang 4,5
1Key Laboratory of Regional Climate-Environment for Temperate East Asia, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China 2Center for Monsoon System Research, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100190, China
3Guy Carpenter Asia-Pacific Climate Impact Centre, School of Energy and Environment, City University of Hong Kong, Hong Kong, China 4
State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029, China 5Joint Center for Global Change Studies, Beijing 100875, China
Received 29 April 2015; revised 20 May 2015; accepted 17 June 2015; published 16 November 2015
Abstract
The clustering of severe and sustained droughts in Southwest China (SWC) during the last decade has resulted in tremendous losses, including crop failure, a lack of drinking water, ecosystem destruction, health problems, and even deaths. Various attempts have been made to explore the variability and causes of drought in SWC. Here, the authors
Corresponding author: WANG Lin, wang_lin@https://www.doczj.com/doc/0316759687.html,
P R E L I M I N A R Y A C C E P T E D V E R S I O N
summarize and integrate this accumulated but fragmented knowledge. On the whole, general agreement has been reached on the evolution of drought in SWC, which has become more frequent and intense during the past 50 years and is projected to continue throughout the 21st century. However, it is unclear and even disputable as to what and how sea surface temperatures and circulation oscillation patterns affect the drought condition. Meanwhile, the presence of strong nonlinearity places considerable challenges in both understanding and predicting drought in SWC. Therefore, much remains to be learned concerning the mechanisms responsible for drought disasters in SWC and accurate forecast practice. In addition to pursuing research on factors and processes involved in drought formation, above all, there is an urgent need to develop appropriate strategies and plans for mitigating the threats of drought.
Keywords: drought, Southwest China, historical change, future scenario, mechanism
Citation: Wang, L., W. Chen, W. Zhou, et al., 2015: Drought in Southwest China: A review, Atmos. Oceanic Sci. Lett., 8, doi:10.3878/AOSL20150043.
1 Introduction
Southwest China (SWC) covers an area of approximately 1.23 million km 2, or 12.9% of China, with latitude and longitude ranging from 22°N to 32°N and 98°E to 110°E, respectively, and comprises four provinces and one municipality: Sichuan, Guizhou, Yunnan, west of Guangxi and Chongqing. SWC is one of the most densely populated regions in China, accounting for an estimated 1/6 of the nation’s total, and is also the main grain producing area,
P R E L I M I N A R Y A C C E P T E D V E R S I O N
providing approximately 16% of the national food supply. SWC has abundant precipitation of about 1200–1800 mm per year on average; meanwhile, it contains headwaters of many important rivers, including the Yangtze, Lancang and Nujiang, which provide as much as 46% of China’s available water resources. Despite being located in the humid climate zone, exceptional and sustained droughts have frequently hit SWC in the last decade, with the summer of 2006, the autumn of 2009 to the spring of 2010, and the summer of 2011 being record-breaking events (Wang et al., 2014). According to statistics reported by the Chinese government, severe drought together with high temperatures during summer 2006 caused water scarcity for at least 18 million residents, crop failure on 311300 ha of land, and economic losses of 11.74 billion yuan (Li et al., 2009). During the long-lasting drought from autumn 2009 to the ensuing spring of 2010, more than 16 million people and 11 million livestock faced drinking water shortages, with direct economic losses estimated at 19 billion yuan (Barriopedro et al., 2012; Qian and Zhang, 2012; Yang et al., 2012b). One year later, the drought in the summer of 2011 affected a combined 5.86 million ha of crops, leaving a total of 9.17 million livestock and 12 million people short of drinking water (Sun et al., 2012; Wang et al., 2012). All of these super droughts constitute devastating and far-reaching threats to agriculture, water availability, ecosystems (Zhang et al., 2012a, b), the economy, and society (Ye et al., 2012). Besides the negative effect of drought, the complex topography, erosion, deforestation, and poor water management have exacerbated the worst drought events in SWC (Qiu, 2010).
Before massive droughts over SWC initiated in 2006, studies of drought/flooding across
P R E L I M I N A R Y A C C E P T E D V E R S I O N
eastern China and Northwest China were hot topics among the research community (e.g., Huang, 2004; Zhou et al., 2006, 2012; Zhou and Chan, 2006; Chen et al., 2009, 2013a, b; Wei and Wang, 2013; Li et al., 2014a; Qu et al., 2014). During recent years, devastating droughts in SWC have attracted great concern from both the Chinese government and the academic sector. To date, considerable efforts have been expended on surveying the characteristics as well as establishing the physical causes of droughts in this hotspot region. Nevertheless, the relevant literature remains fragmented. Therefore, in this review paper, we gather and integrate the past achievements in understanding the multiple aspects of drought in SWC, and highlight the pending obstacles and knowledge gaps that need to be addressed in future work. The remainder of the paper is organized as follows: In section 2, we review the historical change of drought in SWC from an observational perspective, along with future projections based on simulations by climate models. After describing the basic characteristics of the variability of drought in SWC, the suggested causes of drought in the region are summarized in section 3. Finally, section 4 provides concluding remarks and suggests directions for future research. 2 Historical and future projected changes of drought in SWC
This section provides the current knowledge from historical and future perspectives regarding drought in SWC. He et al. (2011), Zhang et al. (2013a), and Li et al. (2014b) all detected the spatiotemporal signatures of dryness-wetness variations in SWC from 1960 to 2009 and, despite the different drought metrics employed, the generally consistent finding was that drought events in SWC have increased in both intensity and frequency during the
P R E L I M I N A R Y A C C E P T E D V E R S I O N
past half a century, induced by the combined effect of decreasing precipitation and rising temperature. Wang and Chen (2012) examined the multiscalar variability of drought over SWC in long records starting from the early 20th century and found dramatic interannual variability superimposed on interdecadal oscillations without a pronounced long-term trend. Therefore, the trend towards increasing drought in the last 50 years may indeed reflect a phase transition associated with multi-decadal variability. Although current droughts are extremely serious, it is in fact not the worst period in a long-term context because the drought episodes centered around the year 1940 experienced the same intensity and duration. Other dry periods with less detrimental effects included the 1960s and 1990s, while very or extremely humid conditions were recorded in 1910–30, the 1950s, and 1967–70. In addition, other decades were characterized by climatic stability, with less intensive and shorter dry or humid periods. Recently, Ji et al. (2015) extended the analysis back to 1500 A. D. with the help of yearly charts of dryness-wetness in China for the last 500 years, a reconstruction product on the basis of China’s official historical documents. On the centennial scale, an abrupt increase of drought disasters was found during the 20th century compared to the past four centuries. However, it should be noted that there remains substantial uncertainty with respect to the proxy database inferred from chorography, indicating that interpretations of reconstructed drought variability should be treated with caution. Despite significant efforts made to place drought in SWC in a historical context, as Wang et al. (2015a) pointed out, it remains unclear as to why the recent super droughts are historically unprecedented during the past 50 years and what is the essential feature behind them. These failures stem from the
P R E L I M I N A R Y A C C E P T E D V E R S I O N
absence of an integrated approach to quantifying drought and its associated indexes, which is crucial for understanding the mechanisms responsible for super droughts and for distinguishing such droughts from those of less consequence. A new metric, called the Comprehensive Multiscalar Indicator (CMI), was developed to consider the combined effects of the wet/dry state at different timescales. Reexamination of droughts in SWC illuminates the essential feature of super droughts events— a combination of multiple stresses on water resources and highlights the utility of CMI.
As we know, climate change poses a significant challenge to human survival and development, especially for underdeveloped regions. Apart from understanding historical evidence, it is of vital importance to assess possible future scenarios of drought risk under the background of global warming. Such knowledge will be helpful for the state and local government in preparing advanced mitigation and adaptation strategies. Wang et al. (2014) evaluated potential future changes in drought over SWC under the CMIP5 (Coupled Model Intercomparison Project Phase 5) framework. Towards the end of 21st century, precipitation and evaporation are both expected to increase, resulting from intensified water vapor transport from the Bay of Bengal and the joint effect of elevated temperature and surface net radiation, together with reduced relative humidity, respectively. In comparative terms, the increasing rate of evaporation outweighs that of precipitation, producing an overall drying tendency in SWC (Fig. 1). Furthermore, we see that not only will incidences of severe and extreme drought increase dramatically in the future, but extremely wet events will also become more probable. It is also noteworthy that the future drought risk in SWC is nearly
P R E L I M I N A R Y A C C E P T E D V E R S I O N
twice that in other parts of the country (Wang and Chen, 2014). In light of the current impacts and future threats of drought disasters in SWC, it is imperative to take measures to improve our ability to cope with such change, including water management solutions, adjustments to cropping structures, soil protection, and so on.
3 Mechanisms responsible for drought in SWC
Based on the above arguments, the variability of drought in SWC at varying time scales becomes clear, but the physical mechanisms responsible remain elusive. In general, the maintenance of deficient precipitation over affected areas is often regulated by persistently abnormal sea surface temperature (SST) and the resulting atmospheric conditions. Therefore, many studies have been conducted to explore the critical pattern of SST and synoptic systems with significant influence on the lack of rainfall in SWC. Besides, drought is often enhanced by land-atmosphere coupling, which plays a significant role at a more local and on shorter time scales. Figure 2 summarizes the factors currently recognized as possibly being engaged in drought formation over SWC.
At present, the vast majority of studies on the topic have been carried out with a focus on particular droughts, such as those that occurred in summer 2006, autumn 2009 to spring 2010, and summer 2011. Yang et al. (2008), Li et al. (2009), and Liu et al. (2009b) all noted that, during summer 2006, the western Pacific subtropical high (WPSH) strengthened, with its ridge line shifting northward and extending westward, and the Tibetan high lay eastward. The two highs then merged into a stable belt of continental high pressure aloft in the middle and upper troposphere. Under the control of high pressure, downward airflows prevailed in SWC
P R E L I M I N A R Y A C C E P T E D V E R S I O N
and moisture supply from the Bay of Bengal and South China Sea to this region was blocked, as evidenced by anomalous water vapor flux from the northeast to the southwest, and an associated divergent center situated in the Sichuan-Chongqing region (Liu et al., 2009a). Further investigation showed that a stronger heat source induced vigorous convective activities over the western Pacific in summer (Peng et al., 2007) and less snow cover over the Tibetan Plateau in the preceding winter and spring (Zou and Gao, 2007), giving rise to the amplification of the WPSH and the Tibetan high, respectively. Moreover, accompanied by a weak blocking high in the Ural Mountains and a shallow East Asian trough, the midlatitudes were dominated by stronger zonal circulation than usual, which hindered the southward intrusion of cold air into SWC. Consequently, the large-scale configuration of the subtropical and midlatitude circulation pattern during summer 2006 was not favorable for the convergence of warm-moist air from the south and cold-dry air from the north, and thus severe drought developed. Related with the autumn 2009 to spring 2010 drought, several potential climatic candidates have been identified. At the local scale, SWC was characterized by a lack of moisture and warmer air temperature throughout the lower and middle troposphere, which together made it hard for the air to become saturated and thus also made it hard for rain to form (Lu et al., 2011; Yang et al., 2012b). Meanwhile, significant anomalous descent was observed in SWC. Even so, what and how did remote forcing affect the regional thermodynamic characteristics? Yang et al. (2012b) reported a significant positive correlation between the Arctic Oscillation (AO) index and precipitation in SWC, indicating that a
P R E L I M I N A R Y A C C E P T E D V E R S I O N
negative phase of the AO may bring drought to the region. Accordingly, Barriopedro et al. (2012), Huang et al. (2012), and Yang et al. (2012b) all noted that, in winter of 2009/2010, the AO index amounted to its lowest value since the mid-20th century, which brought the track of cold waves eastward with coincident reduced northerly flow of cold air into SWC, as mirrored by pronounced low temperature overwhelming the eastern half of China. Meanwhile, SWC also suffered from deficient moisture supply: during autumn 2009, an anomalous cyclone over the South China Sea impeded water vapor transport from the western Pacific and the Bay of the Bengal; during the subsequent winter, a flat-shaped south branch trough (also called the India-Burma trough) diverted water transfer to the far east before penetrating inland towards SWC (Wang and Li, 2010; Zhang et al., 2011; Barriopedro et al., 2012). Furthermore, Huang et al. (2012), Yang et al. (2012b), and Zhang et al. (2013b) all assumed oceanic warming in the equatorial central Pacific that began around June and matured in November, known as El Ni?o Modoki, to be the principal external forcing in shaping East Asian circulation pattern anomalies. Specifically, El Ni?o Modoki induced a strongly anomalous cyclone over the west North Pacific during autumn 2009 (Zhang et al., 2013b), while a substantial westward extension of the WPSH (Yang et al., 2012b) along with an anticyclone over the South China Sea (Huang et al., 2012) occurred during winter 2009/2010, all of which were conducive to a strong decline in water vapor transport to SWC. Conversely, however, Jiang and Li (2010) and Yang et al. (2012a) both argued that the drought during winter 2009/2010 did not arise from the impact of El Ni?o, owing to the fact that the SST anomaly composite for extreme rainfall deficit years resembled a La Ni?a pattern. Another
P R E L I M I N A R Y A C C E P T E D V E R S I O N
controversial aspect is the effect of the Indian Ocean (Huang et al., 2012; Zhang et al., 2013b). In summary, studies are generally consistent in the AO playing a critical role in the extreme drought condition of 2009/2010, but it remains an open question as to whether El Ni?o Modoki or the Indian Ocean make the greatest contribution. We elaborate on this further later in the paper. Additionally, Li et al. (2013) demonstrated the importance of antecedent soil moisture anomalies in their simulation, showing that reduced soil moisture in autumn led to decreased precipitation in the subsequent winter via positive feedback loops.
With respect to the 2011 summer drought, Sun et al. (2012) and Wang et al. (2012) concluded that a weakened water vapor supply and prevalent descending motion over SWC yielded the severity and persistence of the drought. Such a pattern is quite similar to the atmospheric configurations noted during the previous event in summer 2006. However, the WPSH exhibited contrasting characteristics in summer 2006 and 2011 in terms of its zonal extent. Li et al. (2014c) revealed that the WPSH stretched westward in 2006 but withdrew eastward in 2011, indicative of its possible nonlinear behavior. The case studies summarized above are indispensable but can sometimes be misleading, because of their very narrow focus. Recent studies have endeavored to provide a more general description of the synoptic and SST conditions, as opposed to specific examples, offering deeper insight into the causes of drought. Feng et al. (2014) studied the teleconnected causes of drought in SWC during its dry season (November to March), and considered SST anomalies in the tropical Pacific and North Atlantic to be the main drivers for drought. During La Ni?a years, enhanced heating over the Maritime Continent provokes
P R E L I M I N A R Y A C C E P T E D V E R S I O N
anomalous downward motion over SWC through the connection of local Hadley circulation; in the presence of an ENSO-neutral status, a negative-phase North Atlantic Oscillation (NAO) plays a crucial role by exciting a large-scale wave train that leads to an anomalous anticyclone in SWC. Xu et al. (2012) focused on the asymmetric relationship between the NAO and SWC precipitation in boreal winter, disclosing that the negative phase of the NAO generates insufficient precipitation over SWC, while the relationship between them is not significant for the opposite phase.
Regarding autumn drought, as suggested by Wang et al. (2015b), it is primarily the tropical Northwest Pacific (NWP) SST that exerts an influence on SWC; moreover, the three key dynamic processes linked to drought in SWC in response to a warm NWP have also been elucidated based on both observational diagnosis and numerical experiments. Therefore, it is evident that there is no preference for drought during the dry season to be correlated to the El Ni?o portion of ENSO. However, as mentioned, the 2009/2010 drought was attributed to El Ni?o Modoki by Huang et al. (2012), Yang et al. (2012b), and Zhang et al. (2013b). So, why are there such conflicting attitudes towards the effect of ENSO? One possible explanation to reconcile these disparate findings is that the response of drought and its associated circulation pattern to ENSO forcing is rather nonlinear. If a nonlinear association exists, it is probable for individual events (i.e., the 2009/2010 drought) to be influenced by a specific El Ni?o episode, with its distinct features in terms of intensity and location, even though there is no overall correspondence between them.
Also recall that a strong and westward extension of the WPSH during summer 2006 is
P R
E L I M I N A R Y A C C E P T E D V E R S I O N
believed to have promoted the dry condition over SWC. Following the linear perspective, a weak and eastward retreat of the WPSH implies plentiful precipitation in SWC. However, Li et al. (2009) examined the strength indices and western-most points of its ridge line corresponding to severe drought in different years, and revealed that the WPSH patterns associated with marked positive and negative rainfall anomalies in SWC are not opposite to each other. Instead, either stronger with a westward shift or weaker with an eastward shift of the WPSH can result in inadequate precipitation over SWC, implying a nonlinear response of SWC precipitation to the amplitude and zonal deviation of the WPSH during summer. Nevertheless, a common feature shared by almost all drought events is the poleward displacement of its ridge line (Li et al., 2009; Liu et al., 2009b).
Lastly, but importantly, the worsening drought risk in SWC is not only a natural process, but also the result of inappropriate human intervention. Extensive human activities have been exerting increasing impacts on the fragile environment of the region, including the degradation of vegetation, deforestation, soil erosion, and excessive consumption of water resources. When anthropogenic impacts work in tandem with natural disasters, drought conditions can intensify and perpetuate. Mu et al. (2010) studied the effects of human activity on severe drought in SWC, but it is beyond the scope of this review to go into their findings in detail.
4 Conclusion and future perspective Starting around 2006, a sequence of extreme droughts have struck SWC, resulting in
P R E L I M I N A R Y A C C E P T E D V E R S I O N
tremendous losses including crop failure, a lack of drinking water, ecosystem destruction, health problems, and even deaths. Enormous amounts of research effort have been dedicated to investigating the variability and causes of droughts in SWC. In this review, we first document the basic characteristics, encompassing historical changes and future scenarios, of dryness-wetness variation in SWC, and then summarize the proposed mechanisms responsible for drought. On the one side, clear agreement has been achieved on the spatiotemporal evolution of drought in SWC, which has become more frequent and intense during the past 50 years and is projected to continue throughout the 21st century. On the other side, however, although our understanding of the causes of drought in SWC has progressed a great deal, evolving from case studies to more generalized theory, many controversies and open questions remain. Hence, there is much left to be learned about the mechanisms that trigger drought in SWC. Based on this review of the literature, the key issues and challenges to be addressed in the future are highlighted as follows: (1) Role of SST (particularly ENSO) with associated teleconnections. There is great uncertainty as to which SSTs and induced atmospheric circulation anomalies cause drought or flood conditions in SWC. Detailed investigations need to be made to determine the exact impacts of SSTs. In particular, since ENSO is known to heavily disrupt normal weather conditions in many parts of the world, it is essential to ascertain the role and effect of ENSO, be it of the canonical or Modoki type. Besides, previous results are suggestive of a possible nonlinear influence of ENSO, depending on its intensity and location, on SWC, which deserved further attention.
P R E L I M I N A R Y A C C E P T E D V E R S I O N
(2) Strong nonlinearity. The SST and circulation patterns tied to the fluctuation of SWC precipitation are typically complicated, with already reported nonlinear influences of the WPSH and ENSO at play. Consequently, a simple linear technique, such as correlation, regression or composite analysis, is not applicable. The presence of nonlinear relationships invokes appreciable difficulties in understanding the mechanisms involved.
(3) Predictability and prediction. The ultimate goal of understanding the mechanisms and processes underlying drought variability is to develop skillful prediction. Further, the ability to predict drought accurately relies on our knowledge of sources of predictability. However, little is currently known about potential predictors of drought in SWC. Moreover, as a consequence of strong nonlinearity, it is challenging to build effective prediction methods because current climate models are incapable of capturing both the position and intensity of SST and circulation anomalies.
The scope of future work is not limited to the key issues outlined above. In particular, the contribution from land surface processes, both locally in SWC and remotely in the Tibetan Plateau, has not yet been investigated. Obviously, more research is needed in the future to reveal the potential candidates that contribute to drought in SWC. Therefore, the only way to address drought-related problems in SWC is via the concept of the climate system.
Finally, regardless of whether or not improvements will be made to our understanding and forecasts of drought in SWC, it is urgent to implement planning and mitigation strategies in order to reduce the adverse impacts when drought occurs.
Acknowledgements. This work was supported by the National Basic Research Program of
P R E L I M I N A R Y A C C E P T E D V E R S I O N
China (Grant Nos. 2012CB955604 and 2011CB309704), the National Natural Science Foundation of China (Grant Nos. 41461144001, 41230527, 41275083, and 91337105), and the National Outstanding Youth Science Fund Project of China (Grant No.41425019).
References Barriopedro, D., C. M. Gouveia, R. M. Trigo, et al., 2012: The 2009/10 drought in China: Possible causes and impacts on vegetation, J. Hydrometeor., 13, 1251–1267.
Chen, W., J. Feng, and R. Wu, 2013a: Roles of ENSO and PDO in the link of the East Asian Winter Monsoon to the following summer monsoon, J. Climate , 26, 622–635. Chen, W., X. Lan, L. Wang, et al., 2013b: The combined effects of the ENSO and the Arctic Oscillation on the winter climate anomalies in East Asia, Chin. Sci. Bull., 58, 1355–1362. Chen, W., L. Wang, Y . Xue, et al., 2009: Variabilities of the spring river runoff system in East China and their relations to precipitation and sea surface temperature, Int. J. Climatol., 29, 1381–1394.
Feng, L., T. Li, and W. Yu, 2014: Cause of severe droughts in Southwest China during 1951–2010, Climate Dyn., 43, 2033–2042.
He, J., M. Zhang, P. Wang, et al., 2011: Climate characteristics of the extreme drought events in Southwest China during recent 50 years, Acta Geogr. Sinica (in Chinese), 66(9), 1179–1190. Huang, G ., 2004: An index measuring the interannual variation of the East Asian summer monsoon—the EAP index, Adv. Atmos. Sci., 21, 41–52.
Huang, R., Y . Liu, L. Wang, et al., 2012: Analyses of the causes of severe drought occurring
P R E L I M I N A R Y A C C E P T E D V E R S I O N
in Southwest China from the fall of 2009 to the spring of 2010, Chin. J. Atmos. Sci. (in
Chinese), 36(3), 443–457.
Ji, Y ., G . Zhou, S. Wang, et al., 2015: Increase in flood and drought disasters during
1500–2000 in Southwest China, Nat. Hazards , 77(3), doi:10.1007/s11069-015-1679-9. Jiang, X., and Y . Li, 2010: The spatio-temporal variation of winter climate anomalies in
Southwestern China and the possible influencing factors, Acta Geogr. Sinica (in Chinese), 65(11), 1325–1335.
Li, C., H. Liu, and J. Song, 2013: Further study of Yunnan drought during the 2009/2010
winter: numerical simulation of impact of antecedent soil moisture, Climatic Environ. Res. (in Chinese), 18(5), 551–561.
Li, X., W. Zhou, D. Chen, et al., 2014a: Water vapor transport and moisture budget over
eastern China: Remote forcing from the two types of El Ni?o, J. Climate , 27, 8778–8792. Li, Y ., H. Xu, and D. Liu, 2009: Features of the extremely severe drought in the east of Southwest China and anomalies of atmospheric circulation in summer 2006, Acta Meteor. Sinica , 67, 122–132.
Li, Y ., F. Ren, Y . Li, et al., 2014b: Characteristics of the regional meteorological drought events in Southwest China during 1960–2010, J. Meteor. Res., 28(3), 381–392. Li, Z., J. Chen, and X. Dong, 2014c: Comparison analysis for summer heavy drought and its
circulation features in 2011/2006 in Chongqing, J. Southwest Univ. Nat. Sci. Edit. (in Chinese), 36(8), 1–10.
P R E L I M I N A R Y A C C E P T E D V E R S I O N
Liu, X., Q. Yang, and B. Cheng, 2009a: Study on anomalies of atmospheric circulation and
water vapor field of the heavy drought in Sichuan-Chongqing region in midsummer 2006, Meteor. Mon., (in Chinese), 35(8), 27–34.
Liu, Y ., H. Xu, and Z. Cui, 2009b: Possible causes for drought in Sichuan-Chongqing region in Summer 2006, Trans. Atmos. Sci. (in Chinese), 32(5), 686–694.
Lu, E., Y . Luo, R. Zhang, et al., 2011: Regional atmospheric anomalies responsible for the 2009–2010 severe drought in China, J. Geophys. Res., 116, doi:10.1029/2011JD015706. Mu, X., F. Wang, H. Feng, et al., 2010: Human impacts on severe drought in southwest region of China, Bull. Soil Water Conserv. (in Chinese), 30(2), 1–4.
Peng, J., Q. Zhang, and C. Bueh, 2007: On the characteristics and possible causes of a severe drought and heat wave in the Sichuan-Chongqing region in 2006, Climatic Environ. Res., (in Chinese), 12(3), 464–474.
Qian, W., and Z. Zhang, 2012: Planetary-scale and regional-scale anomaly signals for persistent drought events over Southwest China, Chin. J. Geophys., (in Chinese), 55(5), 1462–1471. Qiu, J., 2010: China drought highlights future climate threats, Nature , 465, 142–143.
Qu, X., G . Huang, and W. Zhou, 2014: Consistent responses of East Asian summer mean rainfall to global warming in CMIP5 simulations, Theor. Appl. Climatol., 117, 123–131. Sun, L., F. Ren, and Z. Wang, 2012: Analysis of climate anomaly and causation in August 2011, Meteor. Mon., (in Chinese), 38, 615–622.
Wang, B., and Y . Li, 2010: Relationship analysis between south branch trough and severe
P R E L I M I N A R Y A C C E P T E D V E R S I O N
drought of Southwest China during autumn and winter 2009/2010, Plateau Mount.
Meteor. Res. (in Chinese), 30(4), 26–35.
Wang, L., 2014: Development of Drought Index, Future Projected Changes and Possible
Causes of Severe Drought in Southwest China , PhD’s thesis, Institute of Atmospheric Physics, Chinese Academy of Sciences, 110pp.
Wang, L., and W. Chen, 2012: Characteristics of multi-timescale variabilities of the drought
over last 100 years in Southwest China, Adv. Meteor. Sci. Tech. (in Chinese), 2(4), 21–26. Wang, L., and W. Chen, 2014: A CMIP5 multimodel projection of future temperature,
precipitation, and climatological drought in China, Int. J. Climatol., 34, 2059–2078.
Wang, L., W. Chen, and W. Zhou, 2014: Assessment of future drought in Southwest China
based on CMIP5 multimodel projections, Adv. Atmos. Sci., 31(5), 1035–1050.
Wang, L., W. Chen, W. Zhou, et al., 2015a: Understanding and Detecting Super Extreme
Droughts in Southwest China through an Integrated Approach and Index, Q. J. R. Meteorol. Soc., doi:10.1002/qj.2593, in press. Wang, L., W. Chen, W. Zhou, et al., 2015b: Teleconnected influence of tropical Northwest Pacific sea surface temperature on interannual variability of autumn precipitation in Southwest China, Climate Dyn., doi:10.1007/s00382-015-2490-8, in press.
Wang, Z., F. Ren, and L. Sun, 2012: Analysis of climate anomaly and causation in summer
2011, Meteor. Mon. (in Chinese), 38, 448–455.
Wei, K., and L. Wang, 2013: Reexamination of the aridity conditions in arid Northwestern
China for the last decade, J. Climate , 26, 9594–9602.
P R E L I M I N A R Y A C C E P T E D V E R S I O N
Xu, H., J. Li, J. Feng, et al., 2012: The asymmetric relationship between the winter NAO and
the precipitation in Southwest China, Acta Meteor. Sinica (in Chinese), 70(6), 1276–1291.
Yang, H., J. Song, H. Yan, et al., 2012a: Causes of severe drought in Yunnan Province during winter of 2009 to 2010, Climatic Environ. Res. (in Chinese), 17(3), 315–326.
Yang, J., D. Gong, W. Wang, et al., 2012b: Extreme drought event of 2009/2010 over southwestern China, Meteor. Atmos. Phys., 115, 173–184.
Yang, S., J. Pan, and B. Jian, 2008: Analysis of the extreme heat wave and drought over Sichuan basin in 2006, J. Southwest Univ. Nat. Sci. Edit. (in Chinese), 30(7), 133–137. Ye, T., P. Shi, J. Wang, et al., 2012: China’s drought disaster risk management: Perspective of severe droughts in 2009–2010, Int. J. Disaster Risk Sci., 3, 84–97.
Zhang, J., L. Jiang, Z. Feng, et al., 2012a: Detecting effects of the recent drought on vegetation in Southwestern China, J. Resour. Ecol., 3, 43–49. Zhang, L., J. Xiao, J. Li, et al., 2012b: The 2010 spring drought reduced primary productivity in southwestern China, Environ. Res. Lett., 7, doi:10.1088/1748-9326/7/4/045706. Zhang, M., J. He, B. Wang, et al., 2013a: Extreme drought changes in Southwest China from 1960 to 2009, J. Geogr. Sci., 23(1), 3–16.
Zhang, W., F. Jin, J. Zhao, et al., 2013b: The possible influence of a non-conventional El Ni?o on the severe autumn drought of 2009 in Southwest China, J. Climate , 26, 8392–8405.
Zhang, W., Y . Wan, J. Ren, et al., 2011: Analysis of water vapor transportation and its
文献综述城市规划 IMB standardization office【IMB 5AB- IMBK 08- IMB 2C】
浅谈城镇建设存在的问题与未来 姓名:李里 摘要:在阅读多篇文章以后,总结出中国目前新城镇建设存在的普遍问题,由于追求快速城镇化,造成城市建设与城市空间都存在问题,同时建设时并没有考虑保护环境这一方面。目前,生态城市成为最新的城市改造建设模式,取代了传统的城市建设模式。 关键词:城镇建设,生态城市,海绵城市,低碳城市 一、城镇建设存在的问题 目前,新城建设中突出的问题是:新城求洋求新,导致千城一面的城市,形象特色危机;大拆大建导致的生态环境破坏和历史文脉隔断;部分新城人气不足,活力缺少,建设成效与期望差距甚远;过于关注形象和规模,新城认为不足,配套缺失;不够重视经济测算,造成一定的财政负担,前期投入多,后期收效不大。 不少城市的领导为了追求任期业绩,既不尊重投入产出规律,也不考虑经济效果和创新,更不考虑资金的回收问题。对老城区部分青红皂白一律推到重建,这是一种最原始、最不科学、最粗野的城市更新方式,造成一些有保留价值的建筑、设施、古木、风貌等的破坏,是城市的有形和无形资产严重受损,甚至完全消失。城市文脉是一座城市在长期建设中形成的历史的、文化的、特有的、地域的、景观的氛围和环境,是一种历史和文化的积淀。目前,城市中普遍存在着低水平的、低层次的简单城市更新,不注重保护和延续城市的文脉,是城市的文脉收到认为的破坏和割裂。城市正在走向雷同,特有风貌消失。随着世界经济一体化进程的加快和信息、文化、科技各个领域交流的扩大,城市更新改造中大量地运用了新技术、新工艺、新材料、新的设计理念大大促进了城市更新的进程和步伐。但是由于各地“追风”现象十分严重,效仿和追大潮成为时尚,是城市更新中出现了雷同,城市正在被克隆,正在失去领域的、文化的、传统的、多样化的特色,建筑正在失去个性和灵魂。在城市更新改造中,将保护建筑视为获得眼前利益的捷径,千方百计的肆意
中国投资银行发展与区域经济增长协同性分析 作者简介:房国忠(1964~),男,内蒙古赤峰人,东北师范大学商学院副教授,经济学博士生。主要研究方向:社会主义市场经济理论。 摘要:与英美发达区域经济体投资银行与区域经济发展水平的协同性相比,我国投资银行业的发展与区域经济之间还存在着非协同因素,存在着诸多亟待解决的问题。为此,中国投资银行发展要实现与区域经济的发展的相协调,应基于英美发达经济体投资银行发展的经验,采取相应的对策与措施。 关键词:投资银行;区域经济发展;证券市场;直接融资;协同效应 中图分类号:F文献标识码:A 文章编号: 1005-2674(2006)11-0060-03 各区域经济体投资银行的产生与发展与区域经济的发 展密切相关,以美、英为代表的西方发达区域经济体发展进程中投资银行扮演了非常重要的角色,投资银行已经成为区域经济发展的重要参与主体和连接区域证券市场各个环节 的重要纽带。随着中国区域经济的快速发展以及中央对“十一五”期间大力发展资本市场深刻认识的确立,投资银行发
展必将对未来中国区域经济长期、稳定、快速及和谐发展产生重要影响。 一、发达经济体投资银行与其区域经济发展水平的协同性 投资银行与区域经济发展水平协同性是指投资银行发展与区域经济体经济发展之间协和共生,自成一体地形成高效和高度有序化的整合,以实现区域经济和投资银行共同发展的经济发展模式。协同发展的投资银行对区域经济发展具有高效的组织协调与协和互动的作用。纵观西方投资银行业的发展,尤其是以美英为代表西方发达经济体的现代投资银行业发展的历史,我们不难发现,投资银行与区域经济发展在整体上的协同关系。作为西方发达市场经济体系的一个重要组成部分的投资银行发展的全过程贯穿着区域市场经济发展的方方面面,与区域金融体系中的其他金融机构有着千丝万缕的联系,对其整个区域经济发展的全过程有着举足轻重的作用,成为区域经济发展的重要参与主体和连接区域证券市场各个环节的重要纽带,是区域经济发展不可或缺的重要因素。同时,以英、美为代表的西方发达区域经济体经济的快速发展又带动投资银行业的兴起与壮大,为投资银行的发展奠定了市场基础。
西南地区旅游经济发展概况 周洪双 摘要:丰富的旅游资源是西南地区旅游业发展的优势所在,许多地区都将旅游业列为重点发展产业,甚至是支柱产业,并给予一定支持,使其产业规模不断壮大,旅游竞争能力明显提高,成为地区经济新的增长点。但是我们也应该看到,该地区旅游业仍然处于起步阶段,资源优势远远没有转化为经济优势和效益。再者,旅游业又是关联度极强的产业,它的发展与地区其他产业的发展有着密切的联系,同时反映出其它产业的发展状况,并对地区经济的发展起着不可忽视的作用。本文通过对云南、四川、西藏的旅游资源、旅游产业政策等反面进行对比分析,并提出相关建议和对策以期待西南地区的旅游业能为西南经济的腾飞做出卓越贡献。 关键字:西南地区旅游经济旅游产业旅游政策 正文: 我国西南地区旅游资源较为丰富,除各地区富有地域特色的自然风光 外,区内独特的民族风情,具有深厚文化积淀的人文景观。云南、四川、 西藏均属于西南地区,在旅游业发展方面既有其共性,又有很大差异。 因此这三个地区旅游经济发展状况也各不相同,下面我们就针对云南、 四川、西藏三省及其下的各地州的旅游经济进行对比分析。 云南旅游经济发展概况 云南拥有独特而丰富的旅游资源,自然风光绚丽多姿,,民族风情古朴浓郁,对国内外旅客具有强烈的吸引力。就是在同一旅游区内,不同取向的旅游者也都可得到各自的满足。 长期以来,云南省委、省政府高度重视旅游业的发展,在全国率先把旅游业作为支柱产业进行培育,认真规划布局,加大建设力度,实现了旅游经济的高速增长。1999 年,云南旅游业主要经济指标提前一年超额完成“九五”计划目标,其中旅游业总收入比“九五”计划上限目标还超出 19 亿元,旅游产业对国民经济的贡献日益明显,支柱产业的地位正在确立。目前,云南已经成为我国著名的旅游大省和在国际国内享有声誉的旅游目的地。 但是,我们也因该看到,目前云南旅游业的整体素质还不够高,综合竞争力不强,大部分旅游企业竞争力弱,建设资金投入不足,旅游精品品牌不多,从业人员素质参差不齐,市场秩序不规范,服务质量还难以令人满意等问题仍较突出,需要在今后长期的工作中认真加以解决。 立足世界,着眼未来,在顺应中国加入 WTO ,加快与世界经济和国际旅游产业发展接轨的大背景下, 2001 年云南省邀请世界旅游组织的专家,共同编制了《云南省旅游发展总体规划》。按照这个规划,未来云南省旅游业的发展目标:一要使旅游业真正成为全省重要的经济支柱产业,把云南建成中国和东南亚主要的国内国际旅游目的地;二是使旅游业获得广泛的社会效益和经济效益,成为具有国际竞争力的产业;三是从整体上推进中国尤其是西部地区旅游业的发展,最终实现云南由旅游资源大省和旅游接待大省向旅游经济强省转变的战略目标。 迪庆州旅游 迪庆州地处三江并流国家级风景名胜区腹地,滇、川、藏“中国香格里拉生态旅游区”核心区和茶马古道黄金旅游线路的要冲,是云南省唯一的藏族自治州。
无土栽培技术 【摘要】随着越来越多的消费者对食品安全的重视和市场的需求,无土栽培作为一种高效、节能、无污染的规范化生产模式,在我国得到了广泛的推广。不同基质和基质配方对生长和营养价值有显著差异,选择合适的基质配方相当重要。无土栽培具有产量高、适应性强、品质好的特点,受到越来越多的关注和应用。简述了国内外无土栽培的概况,介绍了我国无土栽培的发展现状、优点、存在的问题和展望等,为推进我国无土栽培技术发展提供理论依据。 【关键词】无土栽培 1.无土栽培的定义 万军在科技创新导报上提出:无土栽培是指不用天然土壤栽培作物,而将作物栽培在营养液中,这种营养液可以代替天然土壤向作物提供水分、养分、氧气、温度,使作物能够正常生长并完成其整个生命周期。无土栽培技术从出现至今140多年的发展历程中,特别是近几十年的发展速度非常迅速,与科学技术的发展是分不开的。我国无土栽培技术在研究应用起步较晚,但较原始的无土栽培技术却有悠久历史。近几年我国无土栽培进入迅速发展阶段,无土栽培的面积和栽培技术水平都得到空前的提高。[1]魏明丽与王野在学术园地上提出:无土栽培学是研究无土栽培技术原理、栽培方式和管理技术的一门综合性应用科学。所谓无土栽培就是完全摆脱对土壤的依赖,根据植物生长发育所需要的各种养分配置成营养液,供植物直接吸收利用。无土栽培以人为创造的作物根系环境取代了土壤环境,有效的解决了传统土壤栽培中难以解决的水分、空气、养分供应的矛盾,使作物根系处于一个良好的环境条件。[2]王桂云在科技信息上提出:无土栽培根据所用基质的不同而有不同的类型,常见的有砂培和水培。无土栽培是近百年来新发展起来的一种栽培技术。使用天然基质(如砂、碎秸秆、锯末、草炭等)或人工基质(如岩棉、珍珠岩等)代替土壤.甚至不使用任何基质。运用营养液直接浸、喷植物根部。又称之为营养液栽培。无土蔬菜栽培不仅能提高产品的产量和质量,而且不占耕地,节省肥水,简化工序,有利蔬菜生产的现代化和自动化,目前,我国目前耕地面积约为18.26亿亩,相比1997年的19.49亿亩减少1.23亿亩。在我国当前人均耕地面积相对少、人口密度大、农产品需求旺盛的情况下,无土栽培技术的推广和利用具有广泛的现实意义。[3] 2.无土栽培的特点 无土栽培技术的核心是用基质和营养液代替土壤,因此,利用无土栽培可以有效地克服设施栽培中土壤泛盐,土传病虫害和连作障碍,可以在不适于耕作的地方(如盐碱地、沙漠、海岛、阳台、屋顶等)周年栽培,较有土栽培有无法比拟的优越性。无土栽培不但可使地球上许多荒漠变成绿洲,而且在不久的将来,海洋、太空也将成为新的开发利用领域。其作为一项新的现代化农业技术,具备以下优点:科学调控,品质优良;吸收充分,操作简便;清洁卫生,病虫害少;栽培灵活,美化生活。无土栽培的优越性归根结底在于无土栽培所提供的营养的优越性,与土壤栽培相比,无土栽培以营养液的方式向植物提供的营养要比土壤提供的优越得多,其表现为:营养全面而均衡,营养的有效性高,供应充分、迅速等。[2] 无土栽培都是在温室、大棚内进行的。温室、大棚内的环境条件主要有光照、温湿度和气体等,与外界自然条件不同,需要人工加以调节,以适应园艺作物生长发育的需要,这是无土栽培成败的主要技术环节。[4]
城市化与经济增长关系研究的文献综述 1 引言 改革开放以来,中国经济保持高速增长态势,与此同时,中国的城市化水平也在不断的提高,经济发展助推了城市的大规模扩张,促使农村人口向城市转移,城市化率不断攀升。 国家“十二五”规划提出“坚持走中国特色城市化道路,科学制定城市化发展规划,促进城市化健康发展”。中共“十八大”更是多次提及城市化发展战略,从局限于“区域协调发展”到全面建设小康社会载体,再上升至实现经济发展方式转变。可见城市化对我国经济发展的贡献不可小觑,健康的城市化发展必将成为带动中国经济发展的巨大引擎。 加快城市化建设已成为政府和学界的共识,但如何正确选择我国城市化与经济发展模式,协调城市化发展水平与经济增长速度仍是各界需要关注的课题。围绕这一问题,国内外相关专家从理论和实践上进行了深入研究,对比国内外现有城市化模式,及其与经济增长的相关性联系,对我国更好的协调城市化水平与经济增长之间的相关关系具有重要意义。现把各种观点分为国内与国外两部分综述如下。 2 国内相关文献综述 以刘易斯为代表的发展经济学派利用二元模型进行分析,得出伴随着人口由农村向城市迁移,由第一产业向二、三产业转变,人均产出将得到不断提高。中国社会科学院经济增长课题组于2003年提出经济增长正从工业化的单引擎向工业化和城市化并进的 双引擎转变。 国内大多学者认为经济发展会推动城市化的进程,随着劳动生产率的不断提高,人均收入水平随之增长,就业结构向二、三产业转移,农村人口大量向城市集聚,形成城市化现象,与此同时,城市化在一定阶段一定程度上会反作用于经济增长。 周一星通过对1977年世界上157个国家和地区的数据进行统计分析后,指出城市化水平与人均GDP之间存在一个十分明显的对数曲线关系,相关系数达到0.9079。他还于2005年利用自己修补后的数据构造了中国城乡人口增长的logistic型曲线,对中国未来城市化水平做了一个预测,结论是:2010年我国城市人口比重将为46.5%,2014年可能超
第九单元交通运输的建设—以西南地区为例 9.2 西南区交通运输建设与区域经济发展 教案 ●教学目标 知识目标 了解南昆铁路的建设,大西南地区在建国后的交通发展和今后措施。 理解大西南地区交通建设对经济发展的影响。 能力目标 能利用南昆铁路示意图分析南昆铁路的发展所带来的经济、政治和战略意义,从而能联系当地实际分析交通运输建设和经济发展的关系。 德育目标 让学生进一步理解我国的民族政策:帮助少数民族脱贫致富,走共同富裕、共同繁荣的道路。 ●教学重点 南昆铁路建设对沿线地区的区域发展的重大意义,大西南地区交通的建设对经济发展的影响。 ●教学难点 南昆铁路建设的经济、政治、战略意义。 ●教学方法 利用PowerPoint或其他软件制作多媒体课件、图表资料,启发诱导式教学。 ●教具准备 电脑、投影仪,主要投影片: 1.南昆铁路示意图 2.南昆铁路沿线资源分布表 3.全国贫困人口分布图 4.广西、云南主要的边境开放口岸图 5.建国前西南地区交通线路里程表 6.西南三省一市和广西主要铁路分布图 7.西藏交通分布图
8.大西南交通运输的变化表 9.西南交通发展中的问题及解决措施 ●课时安排 一课时 ●教学过程 [导入新课] (教师)同学们,请大家回忆一下上节课所学的内容,西南地区的交通发展主要受到什么条件的限制? (学生)主要受到地形条件的限制。 (教师)那为什么这里还要大力发展交通运输建设呢? (学生)因为有丰富的自然资源,良好的区位优势,落后的经济发展的迫切需求。 (教师)那么,西南地区的交通究竟是怎样发展的?这里的交通又是如何影响这里的经济的呢? [讲授新课] (屏幕显示)§9.2 西南区交通运输建设与区域经济发展 (教师)我们在上节课最后总结时已知道,这里经济发展需要解决的首要问题是要加强交通运输的建设,也就是说,交通是大西南区域发展的关键。因此,建国后一直花大力气在这里发展交通运输建设,加快了这里资源的开发,促进了这里经济的发展。其中,1997年建成的南昆铁路建设就是其中的一个重要措施。我们今天就以南昆铁路为例来分析交通运输建设对大西南区域开发的重要性。 (屏幕显示)南昆铁路示意图(图略) (教师)请同学们从图上分析,南昆铁路的起止点,途经了哪些省区? (学生)从云南的昆明到广西的南宁,途经云南、贵州、广西二省一区。 (教师)南昆铁路同哪些铁路、哪些港口相连? (学生)与顾昆铁路、贵昆铁路、内昆铁路、枝柳铁路等连在一起,又同广西的北海、防城,广东的湛江等港口等相连。 (教师)因此,这条铁路的建设可加强西南地区同哪些地区的联系? (学生)加强了同南部沿海经济发达地区的联系。 (教师)请同学们继续从图上分析,南昆铁路途经的地区有些资源?注意图例。 (学生)有煤、石油、铝土、铜、铁、铅锌、钨、磷等。 (教师)很好,但这图上仅能反映矿产资源的分布情况,请大家结合我们以前学过的知识,你还能不能分析出这里还有什么资源?提醒大家,我们在上一节中讲的资源类型。
文献综述 1. 研究背景 近年来,随着农村土地流转制度的改革,农业经济结构发生的转变,农业经济增长方式和农业发展方式得到改变,中央一号文件提出的鼓励和支持承包土地向专业大户、家庭农场、农民合作社流转的农业政策无疑更好的印证了发展现代农业真正潮流和形式的到来。家庭农场这一以家庭成员为主要劳动力,从事农业规模化、集约化、商品化生产经营,并以农业收入为家庭主要收入来源的新型农业规模经营成为了重要研究课题。针对国内外专家学者对家庭农场发展合理性、发展前提条件、发展现状等问题的研究,以及发展模式的深入、继续探讨符合国内不同省际之间不同地区的具体情况来发展地方家庭农场的发展已经成为必要和迫切的课题。 2.研究现状 2.1对国外家庭农场的研究 朱博文[1]认为土地私有是国外农场的根本特性。国外发达资本主义国家的农场都是在私有制基础上逐步实行土地相对集中,生产要素完全有市场调节,最终实现适度规模经营发展起来的。刘志雄[2]认为美国农场的组织形式主要分为家庭农场、合伙农场、公司农场三种形式。其中张妮妮[3]研究显示这三种组织形式以家庭农场为主,2007年农场数量为206.9万个,家庭农场比重为97.6%。贾佳佳[4]认为美国家庭农场的特点主要表现为:农场土地私人所有;经营规模化和组织方式多样化;生产经营的专业化;农场主拥有的土地权利是稳定而有保障的。而早在1959年列宁[5]就提出过资本主义农业发展存在两条道路,一条是普鲁士改良道路,一条是美国的改良道路,而在地主经济不存在的情况下农民在后一种情况下占据优势,成为独一无二的代表,逐渐转化为资本主义农场主。克拉夫和马伯格[6]在《美国文化的经济基础》一书中提出家庭农场在美国社会中始终有其经济意义以及象征意义。个人家庭农场制度,是所有西方文化国家为了社会的和政治的原因二促成的
关于城市化问题的文献综述 摘要:本文对近几年来最具代表性的20篇经济类核心期刊上发表的所有有关区域经济学关于城市化的学术论文进行总结,并对这些理论观点进行了归纳与分析,从而进一步的探究了城市化理论的发展方向,以及城市化与其它社会进程现象之间的相互关系,尤其在城市化和城市集中度这个研究方向上进行了详细的阐述。 关键词:城市化、城市集中度 一、城市化和城市集中度 城市化和城市集中度是城市化过程的两个方面。在这些论文中发现更多在关注城市化程度本身,以及对于我国城市化水平与工业化水平的关系、我国城市化率是否滞后等问题进行了十分深入的探讨,但是对于城市集中度问题的研究上所提比较少了。 关于我国城市化是否滞后的问题,比较主流的观点是,我国城市化水平严重滞后于工业化水平,也滞后于许多发展中国家(郭克莎,2002;安虎森、陈明,2005)。由此引出的我国城市化发展应该因循何种道路,同样也是存在着颇多的争论(温铁军,2000;赵新平、周一星,2002).同时,许多学者通过实证分析,论述了在我国提高城市化率具有许多积极影响,比如对于促进社会商品流通(晏维龙等,2004),对于缩小城乡收入差距(路铭,2000)等均存在十分显著的正面效应。洪银兴和陈雯(2000)指出我国存在严重的“城市供给不足”的问题,严重制约了经济社会发展。 提高一个国家或者区域的城市化水平,无疑对促进其经济增长具有十分重要的作用(Malpezzi,2006;Henderson,2005)。对于一个国家或者一个区域而言,提高城市集中度与提高城市化率在一定程度上是同一个问题的两个方面。人口向着某些重要城市集中,会降低一个国家或者地区的非农业人口比例,从而提高城市化水平。而人口的集中会促进知识的传播与应用,从而提高经济增长的效率(Black and Henderson,1999)。 城市化率和城市集中度是两个不同的问题,比如对于区域或者国家内部的城市而言就是这样。一个国家或者一个区域中每一城市城市化率的提高,并不伴随着国家或者区域城市集中度的提高,这是不一定的。而区域或者国家城市集中的提高,就可能会导致区域或者国家中某些城市的城市化率偏高,而另一些城市城市化率就偏低乐的现象。Henderson(2003)通过跨国研究发现,国家经济增长过程中存在最优的城市集中度,这个最有水平又会受到经济发展水平和人口规模的影响。单纯的城市化率在经济增长过程中只是作为一种结果存在的,而不是动力所在。 二、城市化与工业化 城镇化与工业化是绝对紧密联系的,相互促进,不可分割。段禄峰等(2009)认为中国城镇化总体水平滞后与工业化水平,改革开放后这种差距趋于缩小。由于城镇化的发展受自然基础和政策因素影响,各个地区又呈现出不同的情况,其中中东部地区城镇化滞后与工业化,东北地区城镇化超前与工业化,西部地区城镇化水平不高,但是却与工业化发展最为协调。 城市化、工业化的过程会引起环境质量的下降。卢东斌等(2009)采取因子分析、横截面多元回归分析和面板数据模型分析,发现从静态角度看,高城市化率一定程度上会导致城市空气质量的恶化;从动态角度看,初期城市化在一定范围内会导致这样的现象,超过某一个峰值城市环境质量会持续上升,呈现明显的三次曲线特征。 三、城市化水平的影响因素与测度 蒋伟(2009)认为中国地区城市化发展存在空间依赖性,即一个地区城市化水平的提高将通过空间溢出促进周边地区的城市化发展;同时,产业结构的变化,尤其是第三产业的发展,是影响地区城市化水平的主要因素。地区经济发展水平的提高和对外开放程度的加深对地区城市化水平的提高有积极的作用,而教育发展滞后和城乡收入差距扩大对推动城市化进程有负面的影响。张岩(2009)认为非均衡发展是城市化的普遍规律。王家庭等(2009)的研究表明中国区域间城市化水平不平衡程度的变化满足城市化库兹涅茨倒“U”型假说,目前处于城市化水平不平衡程度缩小的阶段,但是缩小速越来越慢。 四、城市化进程中土地利用效率及土地流转
中国与周边国家建立区域经济一体化的前景及其对中国经济发展的影响分析报告 课程:国际贸易 专业:国际工商管理 年级:14级 姓名:江新周 学号:1469001005 时间:2016年12月21日
中国与周边国家建立区域经济一体化的前景及其对中国经 济发展的影响分析报告 一、摘要 20世纪80年代以来,经济全球化和区域经济一体化的迅速发展,中国融入全球经济和区域经济合作与交流的程度和广度明显增强,中国沿边地区与毗邻周边国家的对外经贸合作与交流不断加强,区域经济一体化对沿边地区经济社会发展的影响日益明显。因此,对于本选题的研究,将进一步明确区域经济一体化的前景及其对中国经济发展的影响,具有重要的理论意义和现实意义。 二、正文 (一)、区域经济一体化发展模式的比较分析。 国内学者大多通过比较分析,将区域经济一体化发展模式或形式 进行概括总结,诸如欧盟、东盟亚太经济合作组织、北美自由贸易区、日本的雁行模式、美国的亚太扇形模式等。 (1)张纪康从动态的角度来理解和解释区域一体化形成中相应的实质基础及其形式,将区域经济一体化的各种实现形式归结为四种一是市场导向和政策导向相结合的一体化如北美自由贸易协定二是市 场导向型的一体化,分为欧盟和没有正式协议的市场导向型一体化,如东亚地区各国三是政策导向型一体化分为东盟自由贸易协定、亚太经济合作组织和双边一体化协议如墨西哥、智利,并在对比分析中进行了条总结。文章从发展中国家的角度出发,探讨和分祈了发达国家和
发展中国家之间的区域经济一体化新形式,即南北型区域经济一体化,认为自由贸易区是南北型区域经济一体化的组织形式,提出南二匕型自由贸易区是发展中国家区域经济一体化的方向。 (2)汤碧从区域经济一体化形成的动力机制入手,将区域经济一体化分为制度导向一体化和市场导向一体化是从对外联系程度看,又可分为封闭型一体化和开放型一体化。现实中,欧盟是制度导向和封闭一体化的典型而则体现为市场导向和开放一体化。 (二)、中国区域经济一体化分析 (1)上海经济合作组织自由贸易区建立的可行性 上海合作组织的区域经济一体化最终的形式将是建立在区域性自由贸易区基础上的上海合作组织统一经济空间。上合组织促进新疆与中亚区域经济一体化进程理论中,认为推进中国新疆与中亚区域经济一体化进程应该成为国家和自治区的重要战略选择。但龚新蜀,刘庆岩从上合组织框架下经济合作制约因素及原因分析入手,认为由于各成员国之间缺乏长期有效的合作机制,贸易依存度不高并且经济发展水平制约了相互投资,导致各成员国的经济合作具有一定难度。应通过加强机制化建设,建立有效的合作机制以局部带动整体,加强经贸合作加快经济结构调整,增强经济实力拓展新的合作领域,促进投资多元化发展等四种途径来推进上合组织的经济合作。 (2)中国一一东盟自由贸易区 陈裴对东盟区域贸易合作的贸易效应进行了事后研究,研究结果是东盟区域贸易合作在扩大区域贸易合作方面作用有限。邱丹阳,运
农产品物流相关文献综述 摘要:我国是农产品生产大国,对农产品物流进行研究意义重大。然而,由于各种因素,我国在农产品物流方面的研究相对较少。在物流理论方面,也主要以介绍国外的理论为主。本文将结合国内外物流管理以及农产品物流管理领域的观点,尝试对多个组织及相关学者的理念进行归纳和整理,旨在为更深入的农产品研究提供一些思路。 关键词:物流;农产品;研究 1 引言 随着经济的不断发展,物流对农产品产销的影响日益重要。国际上对物流管理的之于农产品产销的研究比国内要领先很多。但国内也有相当一部分学者对此有所讨论。本文将对前人观点进行综述,从而为探讨农产品物流管理提供更深入的思路。 2 国内外研究现状 最早对农产品物流研究的是美国学者约翰?F?格鲁威尔(John?Crowell),他在1901年的美国政府报告《农产品流通产业委员会报告》中第一次论述了影响农产品配送成本的各种因素和费用,填补了对农产品物流研究的空白。从此以后,对农产品物流的研究逐渐得到了众多专家学者的重视,对现代的农产品物流产生了较深刻影响的有:克拉克?韦尔德在其所著的《农产品营销》中,对农产品营销的集中、运输、储存、融资、风险、标准化等职能进行了研究。美国著名管理学家彼得?德鲁克在题为“经济的黑暗大陆”一文中,强调应高度重视流通过程中的物流管理。第一次将系统论的观点引入物流研究领域的是经济学家丘里默?马蒂尔夫鲁伯,他指出,物流学应将计划、调节和物料流、信息流、人流及能量流的控制作为整体系统来考虑,用系统的观点来研究物流。美国于1963年成立了物流管理协会,该协会将各方面的物流专家集中起来,开展物流理论研究。近些年来,他们的研究重点集中在供应链物流问题、信息化或电子化物流问题、第三方物流服务问题等。日本也成立了类似于美国的物流管理协会,他们在展开了
我国西南地区少数民族舞蹈的艺术特征我国的西南地区,居住着众多民族,如藏、纳西、羌、彝、白、哈尼、苗、布依、拉祜、土家、景颇等民族, 他们既是各自独立的人类共同体,在历史发展过程中又是相互依存、密切联系的一个族群,在他们传承民族文化和进行民族文化交流的过程中,舞蹈无疑是最佳的方式。在我国的民族文化体系里,舞蹈无疑是最重要的元素之一。少数民族舞的种类和样式最为多样,内涵、风格也最为丰富,形式和姿态最具风采,从而使民族舞蹈在整个民族文化中占有很重要的地位。 在人类发展的初期,舞蹈是人们用来传情达意的意识形态,人类的出生、劳动、宗教活动、生产活动等它无处不在,舞蹈已经融入到了人们生活中的所有领域,这种现象至今任遗留在各民族人民的生活中。舞蹈是从原始祭祀演化而来的,从某种意义上说,民族舞蹈可以被视为这一民族的“标记物”,是民族文化的遗存。 一、西南地区民族舞蹈的风格特征 我国民族舞蹈的支系繁多而分布广阔,形成了数量众多、内容丰富的歌舞品种,各民族民间舞蹈各具特色,体现着本民族地域、习俗、信仰的独特色彩。民族舞蹈大都历史悠久,传统深厚,是一种民族文化的积淀和展示。在我国西南地区各民族中,主要分布着如藏、羌、彝、白、纳西、哈尼、苗族、布依族、土家族、拉祜、景颇等民族,他们每个民族都有属于自己的民族舞蹈。我们就以苗族、土家族、彝族、布依族等的民族舞蹈为代表来阐述一下我国西南地区民族舞蹈的艺术特征。
㈠苗族舞蹈的艺术特征 苗族是我国南方的古老民族,最有代表性的舞蹈是“芦笙舞”、“反排木鼓舞”、“锦鸡舞”、铜鼓舞、木鼓舞、湘西鼓舞、板凳舞和古瓢舞等。 ⑴已列入国家非物质文化遗产代表作名录的“反排木鼓舞”,是流传于贵州省台江县方召乡反排村,是一种世代相传的苗族祭祀性舞蹈,反映了苗族祖先不畏艰难险阻,披荆斩棘,长途迁徙,开辟疆土,围栏打猎,创造美好生活的壮举。这种舞蹈是苗族神话中造人之神——“蝴蝶妈妈”的象征,系苗族的祖先姜央打造并开始贡奉,由后人沿袭至今。过去木鼓舞只能在13年一次的祭祀祭祖节跳,在庄严肃穆的仪式中进行,现已演变为用于健身的民族性舞蹈。 “反排木鼓舞”分为五个章节,以激越的鼓点为主节奏,由踏步、腾越、翻越、甩同边手等基本动作构成。人们随着木鼓鼓点,以头、手、脚的大幅度摆动随着鼓点变化而变化,动作粗犷豪放,洒脱和谐,潇洒刚劲,激越豪迈,热情奔放,表现了山区苗族人民顽强的气质和坚强的生命力。 ⑵锦鸡舞是苗族人民每十二年举行一次的祭祖活动中的主要的舞蹈形式。民间的婚庆、迎客礼仪和青年男女的“跳月”的过程中也常常表演锦鸡舞。锦鸡舞以芦笙伴奏,表演时女性个个绾发高耸,头上插戴锦鸡银饰,穿绣花超短百褶裙,戴全套银项圈手镯,脚穿翘尖绣花鞋,打扮得像美丽的锦鸡一样。 锦鸡舞是在苗族小伙的芦笙伴奏下,身着锦鸡服饰的苗族姑娘双脚按
中国区域金融运行报告 (2018) 中国人民银行货币政策分析小组 2018年6月22日
目 录 内容摘要 (1) 第一部分 区域经济金融运行概况 (3) 一、区域经济运行总体情况 (3) 二、区域金融运行总体情况 (5) 第二部分 各区域板块经济金融运行 (8) 一、东部地区经济金融运行 (8) 二、中部地区经济金融运行 (10) 三、西部地区经济金融运行 (12) 四、东北地区经济金融运行 (14) 五、主要经济圈与城市群发展 (16) 六、区域金融改革创新与对外开放情况 (17) 第三部分 区域经济与金融展望 (19) 附录 专题 (21) 专题1 各地区新旧动能转换发展情况研究 (21) 专题2 房地产市场分析 (26) 专题3 地方法人银行机构流动性管理情况分析 (29) 专题4 消费金融发展研究 (32) 专题5 大力发展普惠金融 助推脱贫攻坚 (36) 表 表1 2017年各地区社会消费品零售总额比重和增长率 (4) 表2 2017年各地区进口总额比重和增长率 (4) 表3 2017年各地区出口总额比重和增长率 (4) 表4 2017年各地区社会融资规模增量占比情况 (5) 表5 2017年各地区人民币贷款发生额占比利率区间分布 (6) 表6 2017年各地区地方法人银行机构部分运营指标 (7) 表7 2016~2017年东部地区银行业金融机构概况 (9) 表8 2016~2017年中部地区银行业金融机构概况 (11) 表9 2016~2017年西部地区银行业金融机构概况 (13) 表10 2016~2017年东北地区银行业金融机构概况 (15) 表11 2017年三大经济圈产业结构 (16) 表12 2017年三大经济圈主要经济指标 (16) 表13 2017年各地区房地产开发投资比重和增长率 (26) 表14 2016~2017年各地区住房抵押贷款价值比 (28) 表15 2017年各地区房地产贷款比重和增长率 (28)
编号(学号): 文献综述 (2012届本科) 题目:关于农业产业化发展的研究综述 学院: 专业:农林经济管理 姓名: 指导教师: 完成日期:2012年 4 月28 日 注:[封面的文献综述编号统一填写学号]
沈阳农业大学学士学位论文文献综述 关于农业产业化发展的研究综述 摘要:20世纪90年代初,“农业产业化”一经提出就成为理论界关注的热点, 农业产业化是我国发展农村经济、是国家增税、企业增利、农民增收的有效途径,是农业发展新的生长点和农业转向现代化的重要途径,是社会主义新农村建设的重要内容,是发展区域经济、推进城乡一体化、促进现代农业发展的现实选择,对我国“三农”问题的解决具有重大的现实意义。由于我国农业产业化起步晚,农业基础薄弱,规模化和产业化水平低,加之地区间发展存在极大的不平衡性,农业产业化仍然存在一些急待解决的问题,新农村建设为我国推进农业产业化提出了新要求。如何提高农业产业化的可持续性,是我们必须思考和研究的重要问题。现通过对近几年国内学术界的相关研究成果进行综述,以期对此问题的研究能够更进一步。 关键词:农业产业化;产业链;模式 中国是一个农业大国,农业是国民经济的基础,具有举足轻重的作用。2007年1月29日,《中共中央国务院关于积极发展现代农业扎实推进社会主义新农村建设的若干意见》下发,文件明确要求开发农业多种功能,健全发展现代农业的产业体系,要大力发展特色农业,扶持农业产业化龙头企业发展。此后的中央文件也多次提到了农业产业化发展的重要性。 从政府高度重视,到各项促进措施可以看出,发展特色农业,推进农业产业化的一直是农业经济发展的突破口,在建设社会主义新农村的宏伟工程里发挥着举足轻重的作用。我国农业产业化发展近20年,取得了很大的成就,农业综合增长力显著增强,基本实现了由粗放生产向集约化生产的历史跨越。但是随着现代农业发展进入关键时期,我国的农业产业化发展也迫切需要在体系上进一步创新,在质量上进一步提升。我国农业产业化最早是1993年在山东潍坊提出来的。它是指在农民家庭经营的基础上,以市场为导向,以经济效益为中心,通过各种类型的龙头组织的带动,围绕主导产业和产品,实行区域化布局、专业化生产、规模化建设、系列化加工、社会化服务、企业化管理,形成市场牵龙头、龙头带基地、基地连农户,种养加、产供销、内外贸、农工商一体化,农业产前、产中、产后各环节用利益机制联结成一体的一种生产经营组织形式。农业产业化则是实现农业两个根本转变和“第二次飞跃”的有效途径,是农村经营形式的重大改革和创新,也是农业发展新的生长点和农业转向现代化的重要途径,因此,调整农业产业结构、加快现代农业产业化进程便成为历史的必然选择。现将学者们的相关观点和研究成果梳理如下: 1关于农业产业化内涵界定的研究情况 第一种观点是:国外农业产业化最早产生于20 世纪50 年代的美国,美国哈佛大学的John M.Davis 和Roy A.Goldberg 出版的著作开创了农业产业化研究,但是, 当时他们提出的概念是Agribusiness, 我国翻译为农业综合企业, 简称农工综合体[1]。它是以
中国西南与东南亚跨境民族的形成及其族群认同Ξ 何 平 【摘 要】中国西南边疆地区与东南亚地区之间的跨境民族是随着中国南部与南亚国家边界的变迁和最后确定以及在这一过程中诸多民族不断迁徙发展而形成的,因此,这一地区的跨境民族在认同各自所居住的国家的同时,许多人又一直对他们的故土保持着一种认同,并与中国境内的相同民族一直保持着密切的联系,这个群体也就成为了联系云南乃至中国与东南亚国家的一条天然纽带。 【关键词】中国西南;东南亚;跨境民族;族群认同 【作 者】何平,云南大学人文学院历史系教授及云南大学西南边疆少数民族研究中心特聘研究员,博士生导师。昆明,650091 【中图分类号】C95 【文献标识码】A 【文章编号】1004-454X(2009)03-0122-007 Formation and Ethnic G roup Identity of Cross-border Ethnic G roups bet w een Southw estern China and Southeast Asia H e Ping Abstract:The cross-border ethnic groups between southwestern China and Southeast Asia became following the nation border changes between south China and Southeast Asia and at last ascertain that as well as a lot of nations ceaseless migration and development in this process1Therefore,these areas’Cross -border ethnic groups accept the country they living in,meanwhile many people always keep identity to their homeland or their ancestor’s homeland,and they always keep close connection with the same na2 tion in Chinese1This group has become the natural tie that link contacting Yunnan even China and Southeast Asian Nation1This ethnic group identity across national boundaries sometimes is a double-edged sword too1It may pose a threat to national security probably if grasping no good in the field of the national identity1 K eyw ords:Southwest China;Southeast Asia;Cross-border ethnic groups;Ethnic group identity 虽然国内一些同仁已经对分布在中国西南与东南亚地区之间跨境民族进行过一些研究,但是,对于这些民族的形成过程以及现在这些民族的族群认同问题研究得还不多。因此,本文打算根据自己掌握的资料,对中国西南与东南亚之间的跨境民族的形成以及族群认同谈一点自己的看法。 Ξ云南大学“211工程”三期民族学重点学科建设项目“中国西南民族及其与东南亚的族群关系”资助课题(21131011—09027)及云南大学人文社会科学08年年度项目“云南与大湄公河次区域国家跨国民族比较研究”前期成果。
GROUPECONOMY 集团经济研究2006? 4下半月刊(总第196期)城市化是伴随着工业化的进程而向前推进的。我国1949年城市化水平只有12%左右。新中国成立后城市化在曲折中发展,至1978年城市化水平不超过17.9%。经过改革开放 20多年的发展,到2003年城市化水 平达到40.5%。由于经济过剩的压力和企业开工不足造成的下岗压力等原因,现在我们重新开始审视过去走过的城市化道路。与工业化程度相比较,我国的城市化已经滞后了,而且已经影响到了我国经济结构的进一步提升,阻碍了中国的现代化进程。所以,如何进一步推进城市化,是我国当前和今后一段时期内的重要经济任务。 一、 我国城市化进程的回顾我国的城市化经历了一个曲折的过程。新中国建国之初,毛泽东曾明确认识到需要通过工业化带动城市化。随着工业化的推进,从1952年至1957年,我国城市人口增加了 3000万。接着,因“大跃进”而引起的 经济衰退,使我们在1962-1965年间进行了经济调整,在减少工业项目,压缩基本建设规模的同时,减少城市人口,并提出提高建制镇的标准,减少市镇数量。此后,至80年代初,我国的城市化进程缓慢,甚至出现了城市数量减少的“逆城市化”现象,大城市由115个减少为105个,小城镇由5400个减少为2900个。由于建国以后实行计划经济体制,企图把一切经济活动都纳入国家计划的范围,包括对于城市化问题上也是采取计划的方式。从50年代以后,一系列的政策如:户籍管理制度、城市劳动用工、农村人口进入城市完全由国家计划,国家试图有计划地逐步推进城市化, 致使中国的城市化远远落后于中国的工业化进程。我国城市化没能顺利推进、城市化滞后于工业化,主要有两个原因:其一,从客观上看,我国推进的是以重工业体系为主的工业化,属资本密集型,虽然也能吸收劳动就业,但在这种模式下劳动所占的份额较少,存在着资本对劳动的替代问题。所以,当时虽然从表面上看是政府规定不允许农村人口进入城市寻找工作,但实际上是因为城市并没有创造出更多的就业岗位。如果城市里存在足够多的工作岗位,政府就会号召人们进入城市就业。其二,从主观上看,舆论过度渲染了发达国家城市化带来的问题和城市化完成以后出现的人口逆向流动的趋势,也过度渲染了一些发展中国家城市化中所出现的问题,因此想通过人口的有计划迁移来避免城市化,特别是大城市发展所带来的负面影响,如城市失业、贫困、犯罪问题和交通、污染等问题。 我国的城市化进程涉及到一个对城市化道路认识的方法论问题。社会经济的发展是一个自然历史过程,尽管政府的力量是极其强有力的,但它也不能任意取消或者改变这个自然的发展历程。 改革开放以后,由于家庭联产责任制的推广,农业生产中新的激励机制实施后生产率的提高,使农村中出现了更多的富余劳动力。本来,按照正常的经济发展规律,农村的推力和城市的拉力将会引起城市化速度的加快。但因我国改革具有渐进性的特点,改革初期城市中计划经济仍然占有绝对地位,所以,从农村中走出来的劳动力“离土不离乡”、“进厂不进城”,走了发展乡镇企业之路。 乡镇企业的发展,形成了中国特殊的城市化道路—— —城镇化。到目前为止我国已经形成了大约19000个建制镇。应当肯定,在城乡隔绝的社会结构体制下,在城市工业生产力水平较低的条件限制下,小城镇为依托的城市化发展战略对于促进社会经济发展特别是农村人口生活水平的提高有积极的意义。但是,小城镇城市化的起点太低,乡镇布局星罗棋布,比较分散,有的城镇只有三四千人,城镇人口数量不足使商业和服务业难以发展。城镇虽小,但医院、学校都要五脏俱全,基础设施和社会事业建设的投资效益低下,造成社会资源的极大浪费。而城镇规模小的另一个方面,是难于进行有效的基础建设和环境污染治理,公共物品难以积累,于是在不少地方,“村村象城镇,镇镇像农村”。各小镇都以劳动密集型产业为基础,地方保护主义造成生产要素在城镇之间的流动壁垒,使企业之间难于合并和资产重组,产业同构现象严重,相互之间恶性竞争,削弱了进一步发展的潜力。同时,小城镇缺乏现代大工业最基本的规模效益和最起码的交通、通讯、供电等社会生产条件,现代工业很难发展起来,也抑制了第三产业的发展。同时,我们在考察世界各国城市化道路时发现,城镇化仅仅是城市化的初始表现形态,而且,城市化在初始阶段与工业化相联系,当实现工业化以后,进一步的城市化又与产业结构的升级具有直接的关系。所以,我们现在在充分肯定城镇化的巨大历史和现实作用的同时,也明确我们应进入城市化的更高阶段。 二、当前阻碍进一步城市化的体制因素 中国城市化发展战略研究 文/卢旭东 战略研究 47
践行科学发展观推动名牌经济发展调研报告 践行科学发展观推动名牌经济发展调研报告 科学发展观的第一要义是发展。实施名牌战略是促进经济社会又好又快发展的重要途径名牌就是质量、技术、信誉、知名度和市场占有率的高度统一既体现了“好”又反映了“快”实践证明名牌对转变经济增长方式优化产业结构提高产品质量水平和技术创新能力扩大市场份额树立城市形象具有显著的作用。近年来市委、市政府对实施名牌战略高度重视取得了显著的成绩为更好的实践科学发展观充分发挥名牌对经济社会发展的带动作用。我局作为全市实施名牌战略的组织牵头部门如何更好的落实科学发展观增强名牌经济的拉动作用为此组织对全市名牌经济发展情况进行了调研现将调研情况报告如下: 一、名牌经济现状 近年来我市实施名牌战略紧紧围绕贯彻落实科学发展观促进经济社会又好又快发展的总体要求以企业积极投入名牌建设为主体政府大力引导、扶持、培育、发展、宣传名牌社会各方积极支持推进名牌战略取得了显著的成绩呈现以下几个特点。 (一)名牌在我市经济社会发展中的地位日益突出 从竞争力角度看一个城市的竞争实力主要取决于其比较优势而一批名牌产品和名牌企业的崛起过程就是该地区比较优势的形成过程。
近年来我市名牌企业高举自主品牌大旗以优质高新产品开拓国内外市场名牌规模效应和资源优化配置作用发挥明显对全市工业经济的拉动作用更加显著在金融“寒流”中的优势进一步凸显。 1、名牌总量跻身全省第一方阵。市政府制订了“十一五”全市名牌战略实施纲要制订培育发展名牌的规划出台了实施名牌战略的扶持激励政策。目前全市有有效期内中国名牌产品27个名列全省第三(苏州63个、无锡34个)全省中国名牌产品232个我市占全省的比重11.5%;有166个__名牌产品列全省第四位(苏、锡、南京)全省__名牌产品1683我市占全省的比重10%;328个__名牌产品。 2、名牌经济贡献份额明显提高。在规模上2008年全市名牌企业工业销售额为1407亿元占全市规模以上工业企业销售额的27.6%比上年增加了378亿元。而占全市规模以上企业总数不足8%的445家名牌企业创造了全市近27%的工业增加值。在效益上2008年全市名牌企业实现利润为86亿元占全市规模以上工业企业利润额的28.32%高于全市同期规模以上利润增幅7个百分点反映名牌企业具有良好的经济效益。在税收上2008年全市名牌企业实现税收为49亿元占全市规模工业企业税收总额的比重为29.36%在出口创汇上,20_______年全市名牌企业出口创汇额达35亿美元占全市规模工业企业出口创汇额的29.91较上年净增11亿元。近三年来名牌产品生产企业年市场销售额以33.7%以