Volume 39 Issue 3
Jul.  2021
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DAI Li, ZHANG Xi, WU Liang-ru. Study on Research and Development Progress of Chimonobambusa uitils Based on Biliometrics Analysis[J]. JOURNAL OF BAMBOO RESEARCH, 2020, 39(3): 12-19.
Citation: DAI Li, ZHANG Xi, WU Liang-ru. Study on Research and Development Progress of Chimonobambusa uitils Based on Biliometrics Analysis[J]. JOURNAL OF BAMBOO RESEARCH, 2020, 39(3): 12-19.

Study on Research and Development Progress of Chimonobambusa uitils Based on Biliometrics Analysis

  • Received Date: 2020-06-25
    Available Online: 2021-07-17
  • Chimonobambusa uitils is a unique specie for bamboo shoots in southwest China,and also one of the most recommended bamboo species in the 12 characteristic and advantageous industries established by the rural industrial revolution in Guizhou province. Systemic analysis of the research and development status of this bamboo is conducive to promoting the high-quality development of bamboo industry. Based on Web of Science (WOS) and China National Knowledge Infrastructure (CNKI),it was collected that more than 130 published issued literatures by the relevant location of Chimonobambusa uitils in 1964-2020 at home and abroad and 10 master's papers. Visualization analysis of them showed that:Amount of research literature,reference literature and cited literature was wholly on rising,and the rapid growth after entering the 21st century. Amount of literatures was converged to mainstream journals,while the amount of literatures of authoritative journals was still less in the past 40 years. Literature amount of authors and institutions was distributed in 4 echelons,mainly concentrated in Guizhou province,Chongqing municipality and Yunnan province. Numbers of projects funded by the national science and technology support plan and the National Natural Science Foundation of China accounted for 61.76%,and another numbers of projects at provincial (city) level ranked as Guizhou province (26.47%),Sichuan province (5.88%) and Chongqing municipality (2.94%). In the four subject word grades of >3.0%,2.0-3.0%,1.0-2.0% and <1.0%,relative numbers was 21.05%,21.05%,47.37% and 10.53%,respectively. In the top 3 ranking of co-occurrence frequency with Chimonobambusa uitils,the theme words were bamboo shoots (16.33%),industrial development or young bamboo growth (8.16%),parent bamboo cultivation,bamboo shoot forest or harvesting and processing (6.12%);the secondary words were bamboo shoots (50.00%),tree layer (20.00%),altitude,morphological identification or compound (10.00%). It was systematically reviewed that hot research area literatures on bamboo forest characteristics,cultivation techniques,yield and quality of bamboo shoots,and put forward some new suggestions on the cultivation of bamboo shoot forest and the construction of the whole industrial chain led by the bamboo shoots industrial chain.
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  • [1]
    耿伯介,王正平. 中国植物志[M]. 科学出版社,1996,9(1):338-339.
    [2]
    兰开敏. 柏菁喀斯特台原森林区科学考察集[M]. 贵阳:贵州民族出版社,1994.
    [3]
    You H M,Fujiwara K,Liu Y H. A preliminary vegetation-ecological study of Davidia involucrate forest[J]. Natural Science,2014,6,1012-1029.
    [4]
    刘世农,张喜,李曙明,等. 金佛山方竹次生林型与经营措施[J]. 贵州林业科技,2005,33(4):41-44

    ,48.
    [5]
    张喜,张佐玉,任朝晖,等. 生态因素和乔木层结构对金佛山方竹质量的影响[J]. 贵州林业科技,2001,29(4):9-18.
    [6]
    易思荣,黄娅,肖波,等. 金佛山方竹自然扩散生态效应初步分析[J]. 生态科学,2012,31(1):22-25.
    [7]
    谢佩耘,何跃军,高明浪,等. 金佛山方竹对亮叶水青冈幼树种群数量结构的影响[J]. 热带亚热带植物学报,2017,25(3):225-232.
    [8]
    X Zheng,S Y Lin,H J Fu,et al. The Bamboo Flowering Cycle Sheds Light on Flowering Diversity[J]. Frontier Plant Science,2020,doi.org/10.3389/fpls.2020.00381.
    [9]
    张弘,邹家云,王永燕. 桐梓县金佛山方竹开花结实的探讨[J]. 竹子研究汇刊,1994,13(2):66-69.
    [10]
    陈云飞. 基于遗传多样性的金佛山方竹采样策略初探[D]. 贵州大学,2018.
    [11]
    綦山丁,张喜,张佐玉. 金佛山方竹出笋规律的初步研究[J]. 贵州林业科技,1997,25(3):18-24.
    [12]
    张喜,张佐玉,徐来富,等. 金佛山方竹竹笋幼竹生长规律[J]. 竹子研究汇刊,1998,17(1):53-59.
    [13]
    张雨峰,代丽,谢寅峰,等. 不同海拔金佛山方竹出笋及幼竹生长特性[J]. 南京林业大学学报,2019,43(5):199-203.
    [14]
    李曙明,张佐玉,张喜. 金佛山方竹笋重模型的建立[J]. 贵州林业科技,1999,27(2):35-37.
    [15]
    李曙明,綦山丁,张喜. 金佛山方竹秆重模型初报[J]. 林业科技通讯,1998,5:28-30.
    [16]
    童佳呜,何强,苏小飞,等. 金佛山方竹不同冠层枝叶生长动态模拟模型[J]. 江西农业大学学报,2019,41(6):1130-1141.
    [17]
    顾琪,王平,焦月潇,等. 6个竹种的空间点格局分析[J]. 安徽农业大学学报,2019,46(3):432-439.
    [18]
    苏小飞,童佳鸣,李铭,等. 竹龄对金佛山方竹形态可塑性的影响[J]. 南京林业大学学报,2020,44(4):86-92.
    [19]
    Q Y Li,Z W Zhang,J P Tao,et al. Effect of elevation and canopy condition on morphological traits and leaf fluctuating asymmetry of a bamboo,Chimonobambusa utilis in Jinfo mountain nature reserve,southwest China[J]. Sains Malaysiana,2014,43(8):1119-1125.
    [20]
    苏小飞. 立竹结构对金佛山方竹形态可塑性的影响[D]. 南京林业大学,2017.
    [21]
    莫建国,罗楠. 桐梓县方竹生长的气候条件及区划[J]. 贵州农业科学,2005,33(6):30-31.
    [22]
    李作为,周焱,蔡学成,等. 基于GIS下桐梓县方竹生长的适宜性评价[J]. 贵州农业科学,2012,40(5):159-161.
    [23]
    张敏,文级强,张弘,等. 金佛山方竹栽培技术规程[S]. 北京:中国标准出版社,2010.
    [24]
    P J Shi,Brady K. Quinn,Y Zhang,et al. Comparison of the intrinsic optimum temperatures for seed germination between two bamboo species based on a thermodynamic model[J]. Global Ecology and Conservation,2019,doi.org/10.1016/j.gecco.2019.e00568.
    [25]
    张孟楠,董文渊,浦婵,等. 不同激素水平处理的金佛山方竹种苗抗旱性特征[J]. 东北林业大学学报,2018,46(3):7-11.
    [26]
    王灯,陈云飞,王瑶,等. 金佛山方竹苗木分级标准研究[J]. 种子,2017,36(12):119-123.
    [27]
    郑翼,吴廷亮. 金佛山方竹母竹移栽造林试验[J]. 林业科技开发,2006,20(6):88-90.
    [28]
    张佐玉,张喜,任朝晖,等. 金佛山方竹笋用林改造技术研究[J]. 中国林副特产,2000,3:13-16.
    [29]
    张喜,龙志永,许才万,等. 密度调控对金佛山方竹低产人工林结构的影响[J]. 竹子研究汇刊,2014,33(3):54-59.
    [30]
    焦月潇. 阔叶林不同郁闭度对金佛山方竹林生产力的影响[D]. 南京林业大学,2015.
    [31]
    胡景容,唐东,刘小艳,等. 金佛山方竹混交造林试验初报[J]. 贵州林业科技,2014,42(4):8-11.
    [32]
    李彬,唐正中,李秀珍,等. 南川金佛山方竹低改复壮技术试验研究及其经济效益分析[J]. 四川林业科技,2011,32(3):74-76.
    [33]
    戴晓康,冯茂松,黄从德,等. 四川盆地南缘不同海拔金佛山方竹林土壤化学计量及笋产量特征[J]. 四川农业大学学报,2020,38(1):43-51.
    [34]
    张喜,张佐玉,王先华. 林地覆盖糠壳对金佛山方竹笋量的影响[J]. 竹子研究汇刊,1997,16(3):50-54.
    [35]
    吴鹏,丁访军,殷建强,等. 施肥对金佛山方竹笋的影响[J]. 竹子研究汇刊,2010,29(4):27-31.
    [36]
    鲍丽然,贾中民,李瑜,等. 南川金佛山方竹笋营养安全品质和立地土壤评价[J]. 物探和化探,2018,42(5):1089-1094.
    [37]
    张万萍,杨民,孙际珊. 贵州不同山地竹笋品质分析研究[J]. 山地农业生物学报,2010,29(2):130-134.
    [38]
    苟光前,丁雨龙,杨柳,等. 寒竹属3种竹笋营养成分的分析[J]. 中国蔬菜,2010,16:79-81.
    [39]
    廖林. 贵州金沙方竹笋氨基酸含量分析[J]. 安徽农业科学,2014,42(4):4444-4446.
    [40]
    张祖荣,张绍彬. 野生金佛山方竹在园林苗圃中的引种驯化研究[J]. 湖北农业科学,2009,48(12):3073-3075.
    [41]
    杨米花,苟光前,代朝霞. 接种AM真菌对金佛山方竹苗生长的影响[J]. 贵州大学学报,2020,37(1):48-51.
    [42]
    张喜,文弢,李丹,等. 竹产业生态系统结构及演化规律研究:以贵州省赤水市为例[J]. 生态学报,2016,36(22):7310-7322.
    [43]
    王健,司徒春南,杜文军,等. 黔北地区主要竹种干缩性能的差异分析[J]. 贵州农业科学,2011,39(8):169-172.
    [44]
    崔雪,乜堪雄. 金佛山方竹林旅游资源开发探析[J]. 安徽农学通报,2012,18(11):199-200.
    [45]
    刘文芳,章亮,崔箫,等. 金佛山方竹材的热解及产物性能研究[J]. 竹子学报,2018,37(3):85-92.
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