西南师范大学学报(自然科学版)
西南師範大學學報(自然科學版)
서남사범대학학보(자연과학판)
JOURNAL OF SOUTHWEST CHINA NORMAL UNIVERSITY
2010年
1期
105-110
,共6页
张红霞%吴能表%胡丽涛%洪鸿
張紅霞%吳能錶%鬍麗濤%洪鴻
장홍하%오능표%호려도%홍홍
UV-B辐射%光合色素%叶绿素a荧光特性
UV-B輻射%光閤色素%葉綠素a熒光特性
UV-B복사%광합색소%협록소a형광특성
UV-B radiation%photosynthetic pigment%character of chlorophyll fluorescence
采用人工增强UV-B辐射的方法,研究了蚕豆幼苗生长及叶绿素荧光特性对不同强度UV-B辐射的响应.结果表明:不同强度UV-B辐射使幼苗植株矮化达50%以上,叶面积减小,干物质量减少23.3%~61.49%;可溶性糖及可溶性蛋白含量均显著降低;叶绿素含量下降,其中叶绿素a降低幅度比叶绿素b大;0.25 W/m~2的UV-B辐射使蚕豆幼苗叶片的Fv/Fm、Fv/F0、φPSⅡ、qP等荧光参数值显著下降.根据结果推测,增加不同强度UV-B辐射首先导致幼苗叶绿素含量减少,可溶性蛋白含量减少,进而降低PSⅡ反应中心活性,最终导致光合作用能力下降,减少了干物质的合成和积累.在本试验强度范围内,辐射强度为0.25 W/m~2时,其抑制作用最显著.幼苗植株的矮化及叶面积的减小是植物对增强UV-B辐射的一种适应方式.
採用人工增彊UV-B輻射的方法,研究瞭蠶豆幼苗生長及葉綠素熒光特性對不同彊度UV-B輻射的響應.結果錶明:不同彊度UV-B輻射使幼苗植株矮化達50%以上,葉麵積減小,榦物質量減少23.3%~61.49%;可溶性糖及可溶性蛋白含量均顯著降低;葉綠素含量下降,其中葉綠素a降低幅度比葉綠素b大;0.25 W/m~2的UV-B輻射使蠶豆幼苗葉片的Fv/Fm、Fv/F0、φPSⅡ、qP等熒光參數值顯著下降.根據結果推測,增加不同彊度UV-B輻射首先導緻幼苗葉綠素含量減少,可溶性蛋白含量減少,進而降低PSⅡ反應中心活性,最終導緻光閤作用能力下降,減少瞭榦物質的閤成和積纍.在本試驗彊度範圍內,輻射彊度為0.25 W/m~2時,其抑製作用最顯著.幼苗植株的矮化及葉麵積的減小是植物對增彊UV-B輻射的一種適應方式.
채용인공증강UV-B복사적방법,연구료잠두유묘생장급협록소형광특성대불동강도UV-B복사적향응.결과표명:불동강도UV-B복사사유묘식주왜화체50%이상,협면적감소,간물질량감소23.3%~61.49%;가용성당급가용성단백함량균현저강저;협록소함량하강,기중협록소a강저폭도비협록소b대;0.25 W/m~2적UV-B복사사잠두유묘협편적Fv/Fm、Fv/F0、φPSⅡ、qP등형광삼수치현저하강.근거결과추측,증가불동강도UV-B복사수선도치유묘협록소함량감소,가용성단백함량감소,진이강저PSⅡ반응중심활성,최종도치광합작용능력하강,감소료간물질적합성화적루.재본시험강도범위내,복사강도위0.25 W/m~2시,기억제작용최현저.유묘식주적왜화급협면적적감소시식물대증강UV-B복사적일충괄응방식.
Broad bean(Vicia faba L.)seedlings were grown under artifical enhanced UV-B radiation stress, which was used to research the responses of the growth and character of chlorophyll fluorescence of them. The results showed that enhanced UV-B radiation would shorten the seedling height by more 50%,and minish the leaf areas,and reduce the dry matter accumulation by 23.3%~61.49% ,meanwhile the soluble sugar and soluble protein contents decreased evidently . The contents of Chlorophyll reduced, and the change extend of chlorophyll a was larger than chlorophyll b. Under the UV-B radiation of 0.25 W/m~2 , the chorophyll fluorescence of Fv/Fm, Fv/F0, φPS Ⅱ , qP declined obviously. When UV-B was enhanced, the chlorophyll content of seedling were declined firstly, the contents of Rubisco decreased; then the reaction center of PSⅡ was decreased, finally which led to the photosynthesis weakened, and the synthetical and unused dry material decreased. The restrain effect under the intensity of 0.25 W/m~2 UV-B is obviously; the shortening of seedling and the minish of leaf area are manners to adapt to UV-B for plant.
