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題名 | 空氣污染物對甘蔗葉片色素與反射光譜特徵之影響=Effects of Air Pollutant on the Pigments and Spectral Reflectance in Sugarcane Leaf |
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作者姓名(中文) | 許明晃; 楊志維; 張新軒; 楊棋明; 黃文達; | 書刊名 | 作物、環境與生物資訊 |
卷期 | 3:4 民95.12 |
頁次 | 頁345-354 |
分類號 | 434.71 |
關鍵詞 | 空氣污染物; 甘蔗; 色素; 反射光譜; 植生指數; Air pollutant; Sugarcane; Pigment; Reflectance spectra; Vegetation index; |
語文 | 中文(Chinese) |
中文摘要 | 摘要 本文初步探討甘蔗受到空氣污染物傷害 後,其葉片葉綠素、類胡蘿蔔素、花青素及 類黃酮含量,以及葉片反射光譜之變化,並 進行甘蔗葉片在此逆境中有最大反應光譜波 段之檢定。試驗結果顯示,隨著葉片傷害的 加劇,葉綠素及類胡蘿蔔素之含量逐漸減少 時,花青素則呈增加之趨勢,而類黃酮含量 則變化不大。葉片反射光譜對於空氣污染物 逆境之反應,在可見光波段400-500 nm 及 600-700 nm 會有反射率增加之趨勢,但在550 nm 左右之反射率則無明顯變化。在空氣污染 物逆境危害之下,敏感波段680 nm 反射率與 SR680、ND680、SR705、ND705、SRbroad、NDbroad 及λRe 與葉綠素含量之間具有顯著相關性。因 此敏感波段680 nm 反射率與SR680、ND680、 SR705、ND705、SRbroad、NDbroad 及λRe 可作為 甘蔗在遭受空氣污染逆境危害、葉片老化及 葉綠素含量大量降低時的指標。利用反射光 譜計算植生指數,非破壞性地估算葉片色素 含量之變化進而監測作物生長狀況,應為有 效可行的方法。而欲以衛星遙測技術監測作 物遭受空氣污染危害,建立其預警及災損評 估系統值得研究,但尚需進一步有系統的研 究。 |
英文摘要 | ABSTRACT This study examined the change of the contents of chlorophyll, carotenoids, anthocyanin and flavonoids of sugarcane damaged by air pollutant. The leaf reflectance spectra were measured to determine the leaf reflectance wavelengths being the most sensitive to stress, such as air pollution. The results showed that the contents of chlorophyll and carotenoids decreased, and the contents of anthocyanin increased during the occurrence of this stress, but flavonoids kept the similar level. Increased reflectance in the visible spectra is the most common response of leaf reflectance under stress. Leaf reflectance of 680 nm, as well as SR680、ND680、SR705、ND705、 SRbroad 、NDbroad and λRe, was significantly correlated with total chlorophyll content of sugarcane damaged by air pollutant. Thus, the sensitive wavelength, as well as these vegetation indices, was a good indicator of chlorophyll dramatic loss and leaf senescence caused by the stress damage. It appears possible to createindices using reflectance spectra as a non-destructive method to determine pigment content and to monitor crop growth. However, more systematic research is required and worth of building a precaution and evaluation system to monitor crop under air pollution stress by satellite remote sensing. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。