본문 바로가기
문학_언어_languages/English

chloroplast 엽록체. chlorophyll 엽록소. photosynthesis

by 원시 2023. 2. 23.

스파이로자이라 Spirogyra . 식물 해캄속 조류. a type of freshwater algae (= very simple plants) formed of cells that contain a green spiral of chloroplast.

 

Chloroplast 클로러플라스트. 엽록체= 엽록소를 포함하고 광합성을 발생시키는 색소체이다. (葉綠體) 광합성이 발생하는 곳.

chlo·​ro·​plast ˈklȯr-ə-ˌplast

: a plastid that contains chlorophyll and is the site of photosynthesis

 

Chlorophyll – 클로러필. 엽록소.

noun

chlo·​ro·​phyll ˈklȯr-ə-ˌfil  -fəl

1

: the green photosynthetic pigment found chiefly in the chloroplasts of plants and occurring especially as a blue-black ester C55H72MgN4O5 or a dark green ester C55H70MgN4O6

 called also respectively chlorophyll a, chlorophyll b

 

2

: a waxy green chlorophyll-containing substance extracted from green plants and used as a coloring agent or deodorant

 

 

 

 

The Story of Chlorophyll and Chloroplasts

 

Chloroplasts in plant cell

Round, green chloroplasts fill the middle of a plant cell. Image by Kristian Peters.

 

Chloroplasts are tiny factories inside the cells of plants. They are also found in the cells of other organisms that use photosynthesis. Chloroplasts take the energy from the sunlight and use it to make plant food. The food can be used immediately to give cells energy or it can be stored as sugar or starch. If stored, it can be used later when the plant needs to do work, like grow a new branch or make a flower.

 

 

Chloroplasts Up Close

 

Inside chloroplasts are special stacks of pancake-shaped structures called thylakoids (Greek thylakos = sack or pouch). Thylakoids have an outer membrane that surrounds an inner area called the lumen. The light-dependent reactions happen inside the thylakoid.

 

Our cells have mitochondria (Greek mitos = thread, and khondrion = little granule), our energy-producing structures. We don't have any chloroplasts. Plants have both mitochondria and chloroplasts.

 

Chloroplast model

 

 

This model of a chloroplast shows the stacked thylakoids. The space inside a thylakoid is called a lumen. Image via Guillermo Estefani (artinaid.com).

 

Both mitochondria and chloroplasts convert one form of energy into another form that cells can use. How did plants get chloroplasts? Chloroplasts were once free-living bacteria! Chloroplasts entered a symbiotic (Greek syn = together, and bios = life) relationship with another cell, which eventually led to the plant cells we have today.

 

Being Green

 

 

Chlorophyll, a green pigment found in chloroplasts, is an important part of the light-dependent reactions. Chlorophyll soaks up the energy from sunlight. It is also the reason why plants are green. You may remember that colors are different wavelengths of light. Chlorophyll captures red and blue wavelengths of light and reflects the green wavelengths.

 

Fall aspen colors

 

 

Plants that lose their leaves in the winter start breaking down chlorophyll in fall. This takes away the green color of leaves. Image by John Fowler.

 

Plants have different types of pigments besides chlorophyll. Some of them also assist in absorbing light energy. These different pigments are most noticeable during the fall. During that time, plants make less chlorophyll and the other colors are no longer hidden beneath green.

 

But why don't plants have pigments that allow them to capture all wavelengths of light? If you've ever gotten a sunburn you know firsthand that sunlight can be damaging. Plants can also be damaged from excess light energy. Luckily, there are non-chlorophyll pigments in plants that provide a 'sunscreen'.

 

출처.

https://askabiologist.asu.edu/chlorophyll-and-chloroplasts

반응형