[1]吴 丹,黄万武. 图形背景理论下《山居秋暝》英译解读[J].湖北工业大学学报,2021,(3):87-90.
 WU Dan,HUANG Wanwu. Analysis of English Versions of “Shan Ju Qiu Ming” based on Figure-Ground Theory[J].,2021,(3):87-90.
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 图形背景理论下《山居秋暝》英译解读()
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《湖北工业大学学报》[ISSN:1003-4684/CN:42-1752/Z]

卷:
期数:
2021年第3期
页码:
87-90
栏目:
湖北工业大学学报
出版日期:
2021-06-23

文章信息/Info

Title:
 Analysis of English Versions of “Shan Ju Qiu Ming” based on Figure-Ground Theory
文章编号:
1003-4684(2021)03-0087-04
作者:
 吴 丹 黄万武
 湖北工业大学外国语学院, 湖北 武汉 430068
Author(s):
 WU DanHUANG Wanwu
 School of Foreign Languages, Hubei Univ. of Tech., Wuhan 430068, China
关键词:
 图形背景理论 《山居秋暝》 英译
Keywords:
 Figure Ground Theory “Shan Ju Qiu Ming” English translation
分类号:
H0-05
文献标志码:
A
摘要:
 从图形背景理论的角度,结合图形背景理论在句法分析中的应用,分析出了《山居秋暝》原诗中的图形与背景关系,并对四个英译本中体现的图形背景关系进行了对比分析,为古诗词翻译分析提供了新的思路。其中,许渊冲的译本与原诗的图形背景最吻合,翻译得最好,杨译与谢译次之,Witter Bynner与原诗的图形背景出入较大。
Abstract:
 The figure ground theory is derived from psychology’s research on perception. It was first proposed by the Danish psychologist Rubin. From the perspective of figure ground theory, combined with the application of figure-ground theory in syntactic analysis, the original poem of “Shan Ju Qiu Ming” has been analyzed. It also analyzes the relationship between the figure and the background in the four English translations, which provides a new idea for the analysis of ancient poetry translation. Among the four English versions, Xu ’s translation is the best for it is the most consistent with the figure and background of the original poem, followed by Yang’s and Xie’s, and Witter Bynner’s translation is quite different from the figure and background of the original poem.

参考文献/References:

[1] 乌洪杰. 基于品读视角下王维《山居秋暝》的意境美[J].才智,2018(11):190.
[2] 彭舒羽.《山居秋暝》的“透视主义”分析[J].河北科技师范学院学报(社会科学版),2016,15(2):47-50+66.
[3] 李晖.《山居秋暝》的英译与互文现象[N]. 文艺报,2015-05-20(007).
[4] 乔阳,邢那,湛莹莹. 从隐色词的运用来分析诗歌《山居秋暝》[J].长沙铁道学院学报(社会科学版),2014,15(2):50-51.
[5] 梁丽,陈蕊.图形/背景理论在唐诗中的现实化及其对意境的作用[J].外国语(上海外国语大学学报),2008(4):31-37.
[6] TALMY L.Figure and ground in complex sentences[A].Greenberg J H. Universals in Human Language Vol.4.[C].Stanford:Stanford University Press,1978,70-72.
[7] 史嘉维.图形背景理论下《渔歌子·西塞山前白鹭飞》英译认知解读[J].海外英语,2019(4):43-44.
[8] TALMY L.Towards a cognitive semantics Vol.1.[M] .Cambridge, Mass: The MIT Press, 2000. 181-190.
[9] 高娟,李安华. Talmy图形背景理论概述[J].文教资料,2008(18):48-50.
[10] STOCKWELL P. Cognitive Poetics: Introduction[M]. Cambridge: MIT Press, 2000: 22-25.
[11] 梁丽,赵静. 图形/背景理论在句法分析中的作用[J].华中科技大学学报(社会科学版),2005(2):116-119.
[12] 陈美虹.英语倒装句的图形-背景论分析[J].考试周刊,2016(92):86.
[13] 王冰营,吕娜. 从图形—背景理论看英语倒装句的焦点凸显功能[J].长春大学学报,2005(1):67-70.
[14] 王维.山居秋暝[J].学苑教育,2020(3):2.
[15] 陈优娜.《山居秋暝》译本比较分析[J].吉林省教育学院学报(学科版),2011,27(4):19-21.
[16] 谢艳明.英译中国古典诗词精选[M].世界图书出版广东有限公司,2016.

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备注/Memo

备注/Memo:
[收稿日期] 2020-10-04
[第一作者] 吴 丹(1996-), 女, 湖北咸宁人,湖北工业大学硕士研究生,研究方向为应用语言学
[通信作者] 黄万武(1972-), 男, 湖北英山人,湖北工业大学教授,研究方向为应用语言学,计算语言学
更新日期/Last Update: 2021-06-24