| 課程大綱Course Description: |
| 植物進行光合作用將太陽能量和碳元素固定在生態系中,是地球上最重要的化學反應。許多研究生的論文中利用葉片光合作用的測量來代表植物的生長表現和健康。葉片的光合作用能力也常用以推估生態系的生產力。本課程旨在幫助研究生更深入了解所測量的光合作用參數和推估的原理,將包含光合作用的概念、參與光合作用的胞器和酵素系統調控和介紹影響光合作用的環境因子。課程也將包含儀器操作以及由植物個體推估到族群及生態系的模式演練。 |
| English Outline: |
| Solar energy and carbon were mostly fixed in the ecosystem through plant photosynthesis. Photosynthesis is the most important chemical reaction on the earth. Many graduate students measured plant photosynthesis to present plant performance and health. The ecosystem productivities could be further modeled by plant photosynthetic ability. This course was aimed to help graduate students more aware of the photosynthetic parameters which they measured and calculated. The course would include the introduction of concept of photosynthesis, involved organelles and enzyme systems and controlling factors. The course would also include the operation of instruments and the calculation and model of photosynthesis of plant individual, population and ecosystem. |
| 本科目教學目標Course Objectives: |
| 本研究所將整合生物學及生態學理論,培育生物資源保育管理及永續利用之研究發展人才。為達成人才培育之目標,本所著重於生物資源之研究方法、生物學及生態學研究之理論、生物資源永續利用及生物資源保育管理等相關領域,除重視理論基礎之培育外,亦重視各生物資源相關技術開發及方法學之探討,進而培育出全方位之生物資源保育與利用之人才。 |
