碳吸收 的英文怎麼說
中文拼音 [tànxīshōu]
碳吸收
英文
carbon sequestration-
The absolute temperature changes, however, are from 5 to 14 times greater than would be expected on the basis of carbon dioxide " s own ability to absorb infrared radiation, or radiant heat
可是,氣溫變化的絕對值是根據二氧化碳自身吸收紅外輻射能或輻射熱能的能力預期能產生的氣溫變化的5倍到14倍。The carbohydrate matter that is assimilated into the blood stream is used for energy.
被吸收進血液的碳水化合物用作能量。The atkins diet restricts carbohydrate intake
阿金博士飲食法限制碳水化合物的吸收。The carbon dioxide in the atmosphere is taken up by autotrophic organisms ( mainly green plants ) and incorporated into carbohydrates
在大氣中存在的二氧化碳被自養生物體(主要是綠色植物)所吸收併合成為碳水化合物。Manufacturer of organic bromine compounds in india. products include alkyl, acetyl, and allyl bromides, bromo - aromatics, and ethylene dibromide, for use as intermediates in fine chemical and pharmaceutical manufacture
-提供紫外線吸收劑benzophenone系列和醫藥中間體:琥珀酸單乙脂酰氯羅紅側鏈二環乙基碳二亞胺溴乙醛縮二乙醇等的單位。The climatic - induced net carbon sink by terrestrial biosphere over
1995年氣候變化導致陸地生態系統凈吸收碳Methods for chemical analysis of ferromolybdenum - the infrared absorption method for the determination of carbon content
鉬鐵化學分析方法紅外線吸收法測定碳量This has the water absorbability, the absorption carbon dioxide emits the amine fetid odor
本品有吸濕性,吸收二氧化碳放出胺臭味。Hexavalent chromium as an anti - corrosion of the carbon steel cooling system in absorption refrigerators
在吸收式電冰箱中作為碳鋼冷卻系統防腐劑的六價鉻。Has facility to absorb all metabolic gases e. g. carbon dioxide, water vapour and hydrogen sulphide
安裝有能吸收人體代謝氣體二氧化碳水蒸汽和硫化氫的設備。Carbon sequestration is a last resort to mitigating climate change
碳吸收是減緩氣候變化的最後手段。A single tree will absorb one ton of carbon dioxide over its lifetime
一棵樹在它的一生中可吸收1噸二氧化碳。Can the state of mixing of black carbon aerosols explain the mystery of ‘ excess ' atmospheric absorption
解釋『過度』大氣吸收的秘密能說明碳黑氣溶膠混合狀態嗎?The total carbon absorption increased from 1981 to the end of 1990 ' s and decreased afterwards, but the total carbon emission increased constantly from 1981
碳吸收從20世紀90年代末以來呈下降趨勢,而碳排放則持續增加,其中各省份的碳吸收排放差別顯著。Both total carbon absorption and emission of costal farmland ecosystems were increased from 1981 to 2001, but the increasing rate of carbon emission exceeded that of carbon absorption
總碳吸收和碳排放從1981年以來都呈增加的趨勢,但碳排放的增長超過了碳吸收的增長速度。It meant that carbon emission was obviously less than carbon absorption in costal regions. for example, carbon absorption was about 3 times more than emission in 2001
就目前來說,農田生態系統碳排放明顯低於碳吸收,如2001年的沿海地區農田生態系統碳吸收為碳排放的4倍左右。In details, the increasing rate of carbon absorption in guangxi province was the highest, which in tianjin and shanghai city was about zero and was negative in fujian and zhejiang. carbon emission was increasing in all the provinces, among which the increasing rate of shanghai was the highest
就碳吸收來說,廣西、山東增長最快,天津、上海基本上持平,而福建、浙江等省份則基本上逐年下降;就碳排放來說,各省份都呈逐年增加的趨勢,其中上海增幅最大。The total carbon absorption of china costal farmland ecosystems was 15644. 2 x 104t in 1981 and increased to 22482. 4 x 104t in 2001 with increasing rate of 44 %. but the total carbon emission was 1512. 86 x 104t in 1981 and increased to 5559. 31 x 104t in 2001 with increasing rate of 265 %
其中,沿海十省區農田生態系統碳吸收總量從1981年的15644 . 2萬噸上升到2001年的22482 . 4萬噸,上升了近44 ;而碳排放總量從1981年的1512 . 86萬噸上升到2001年的5559 . 31萬噸,增長了265 。Further, the trend of per area carbon absorption and emission was similar to that of total respectively. in general, per area carbon absorption was about 2 - 7t / ha, which in guangxi was the highest among the ten regions. per area carbon emission was about 0 - 3t / ha, which in shanghai was the highest
就單位面積而言,單位面積碳吸收和碳排放趨勢分別與總碳吸收及排放相近,大部分地區保持在2 - 7噸公頃之間,其中廣西的單位面積碳吸收最大;單位面積碳排放逐年增加,基本上保持在0 - 3噸公頃之間,其中上海增幅最大。Firstly, this dissertation estimated the size of carbon source ; sink and net carbon sink of farmland ecosystems in china costal regions ( including ten provinces ) with statistic data from 1981 to 2001, which include data of crop yield and agricultural consumptions. then analyzed the temporal - spatial differences of carbon source, sink and net carbon sink of china costal farmland ecosystems. secondly, estimated npp ( net primary productivity ) of farmland ecosystems in china costal regions with per month noaa - avhrr ndvi ( normalized difference vegetation index ) data and estimation model
本文首先運用1981 - 2001年的統計資料(作物產量和各種途徑的農業投入數據) ,對沿海十省區農田生態系統碳源匯及凈碳匯進行了估算,並分析了其時空差異;然後運用1998年逐月ndvi數據通過建模對沿海地區農田生態系統npp進行了估算,並分析了npp分佈與農田生態系統碳吸收的相關性;最後通過對農田生態系統碳源匯的影響因素分析,提出了不同的農田生態系統碳增匯減排技術。分享友人