1) CO_2 flux exchange
CO2通量交换
2) CO2 fluxes across air-water interface
海-气 CO2交换通量
3) CO2 exchange
CO2交换量
1.
The data of micro-meteorology were analyzed in Haibei alpine wetland of Qinghai in 2004,the results show that the surface-atmospheric long-wave/short-wave radiation,earth′s surface reflectivity(A),the components of energy flux,moment flux(τ),air temperature,soil temperature,wind speed,friction velocity,CO2 exchange,have obvious seasonal changes.
对青海海北高寒湿地2004年的微气象观测资料分析表明:海北高寒湿地地—气长短波辐射、地表反射率、能量通量各分量、动量通量、气温、地温、风速、CO2交换量等季节变化明显。
4) exchange flux
交换通量
1.
Study on the exchange flux of the DIN through the sediment-water interface in the Yangtze Estuary;
长江口沉积物-水界面无机氮交换通量的模拟测定
2.
A Study on the Nutrients Exchange Flux between Bottom Sediment and Water Layer for Bohai Bay;
渤海湾沉积物和水界面间营养盐的交换通量研究
3.
The profile distribution of nutrients and exchange fluxes at the sediment-water interface were analyzed in the six sites of the inner Pearl River Estuary in April 2005.
2005年春季(4月)对珠江口内6个站位的营养盐剖面分布及沉积物-水界面的交换通量进行了全面研究。
5) exchange fluxes
交换通量
1.
The sediment-water interface nutrients exchange fluxes of BLG(Bailong-gang tideland) and LG(Laogang tideland) with sewage outfalls were studied compared with those of the CY(Chaoyang tideland) without sewage outfall.
通过对有排污口的老港(LG)、白龙港(BLG)潮滩和附近没有排污口的朝阳农场潮滩(CY)的沉积物-水界面营养盐通量的研究发现:污水排放造成潮滩上覆水体中营养盐含量增加,进而影响到潮滩沉积物-水界面营养盐氮磷的交换通量;各点中低潮滩的差异(特别是生物活动的影响),造成了中低潮滩对上覆水中N、P作用的差异;老港和白龙港潮滩由于污水的排放使影响沉积物-水界面营养盐交换通量的盐度因素的作用变得不太明显。
2.
According to the stagnant two film model, the direction and magnitude of exchange fluxes of PAHs across air water interface in Luhu Lake were calculated based on above data.
利用大流量采样器和半渗透膜装置对广州麓湖大气中气态多环芳烃和水体中溶解态多环芳烃进行了连续一年的观测,在此数据基础上,依据国内外通用的双膜理论计算了多环芳烃在广州麓湖水面上的交换通量。
6) exchanging flux
交换通量
1.
The exchanging fluxes of carbonyl sulfide(COS)were investigated by using static method for 6 tree species in Beijing city in fall.
树木与大气间COS的交换通量受树种、环境温度、光照、COS初始浓度等因素的影响 。
2.
The exchanging fluxes of carbonyl sulfide(COS)and dimethyl sulfide(DMS)were investigated by using static method between lawn and atmosphere.
COS和DMS的交换通量与环境温度、光照及初始浓度等因素有关 ,其中 ,周围大气COS的浓度对草坪吸收COS的影响最为明显 。
补充资料:通起
1.方言。总共。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条