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多通道连续监测叶绿素荧光仪——MONITORING-PAM
日期:2017-04-21 10:46:11

主要功能

 

测量参数

Fo, Fm, F, Fo’, Fm’, Fv/Fm, Y(II), qP, qL, qN, NPQ, Y(NPQ), Y(NO), ETR, PAR 和温度等

 

应用领域

长期连续监测植物的光合作用,或连电脑进行常规调制荧光测量。特别适合于长期生态学定位监测、农林气象预报、指导灌溉决策,构建自动化温室等领域。

 

选购指南

一,陆地版-离线版(兼具在线功能)

系统组成:数采(陆地版),电脑转接盒,测量头(陆地版),10m 线缆,软件,电脑(标配不含)

注意:MONI-DA 可接 7 个测量头,内存卡外置,方便取出下载数据

components-2-1.jpg

MONITORING-PAM 图示

 

二,水下版-离线版(兼具在线功能)

系统组成:数采(水下版),电脑转接盒,测量头(陆地版),10m 线缆,软件,电脑(标配不含)

注意:水下版配置与陆地版近似,只是数采,探头以及所有线缆接口具备防水功能。MONI-DA/S 可接 7 个测量头,内存卡内置,不可取出,用命令下载数据

 

三,陆地版-在线版

系统组成:电脑转接盒,测量头(陆地版),10m 线缆,软件,电脑(标配不含)

注意:MONI-SET3,可接 3 个测量头,MONI-SET4,可接 4 个测量头

 

moni-pam new.gif

多探头示例

  

四,水下版-在线版

系统组成:电脑转接盒,测量头(水下版),10m 线缆(推荐),软件,电脑(标配不含)

注意:MONI-SET3,可接 3 个测量头,MONI-SET4,可接 4 个测量头。水下版配置与陆地版近似,只是探头以及所有线缆接口具备防水功能,但转接盒并不防水。

  

dsc_1662-1.jpg

guam_island_6xl.jpg

ffm'.jpg

MONITORING-PAM 应用及测量结果

 

 产地:德国 WALZ


参考文献

数据来源:光合作用文献 Endnote 数据库,更新至 2016 年 9 月,文献数量超过 6000 篇

原始数据来源:Google Scholar

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V. Zsom-Muha et al., An attempt to the nondestructive investigation of photo-induced potato postharvest quality degradation – Preliminary results. Progress in Agricultural Engineering Sciences,  (2021).

J. Quirós-Vargas et al., RESPONSE OF BEAN (PHASEOLUS VULGARIS L.) TO ELEVATED [CO2] IN YIELD, BIOMASS AND CHLOROPHYLL FLUORESCENCE. IGARSS,  (2021).

M. Li et al., Role of Suillus placidus in Improving the Drought Tolerance of Masson Pine (Pinus massoniana Lamb.) Seedlings. Plants 12, 332 (2021).

J. Kim et al., Solar-induced chlorophyll fluorescence is non-linearly related to canopy photosynthesis in a temperate evergreen needleleaf forest during the fall transition. Remote Sensing of Environment 258, 112362 (2021).

W. He, G. Yoo, Y. Ryu, Evaluation of effective quantum yields of photosystem II for CO2 leakage monitoring in carbon capture and storage sites. PeerJ 9, e10652 (2021).

H. He et al., Physiological Response to Short-Term Magnesium Deficiency in Banana Cultivars. Journal of Soil Science and Plant Nutrition,  (2021).

J. Han et al., The roles of photochemical and non-photochemical quenching in regulating photosynthesis depend on the phases of fluctuating light conditions. Tree Physiology,  (2021).

P. Campbell et al., Scaling photosynthetic function and CO2 dynamics from leaf to canopy level for maize – dataset combining diurnal and seasonal measurements of vegetation fluorescence, reflectance and vegetation indices with canopy gross ecosystem productivity. Data in Brief, 107600 (2021).

Andrzejczak, O. A., et al. (2020). "The Hypoxic Proteome and Metabolome of Barley (Hordeum vulgare L.) with and without Phytoglobin Priming. ." Int. J. Mol. Sci(21): 1546.

Casanova-Katny, A. and M. Barták (2020). "Thallus dehydration effects and physiological consequences in Antarctic lichens: Case study from the King George Island, Antarctica." BIOSCIENCES 10(1).

Yang, P., et al. (2020). "Unravelling the physical and physiological basis for the solar-induced chlorophyll fluorescence and photosynthesis relationship." Biogeosciences Discuss. 2020: 1-32.

Yu, W., et al. (2020). "Crop Photosynthetic Performance Monitoring Based on a Combined System of Measured and Modelled Chloroplast Electron Transport Rate in Greenhouse Tomato." Frontiers in Plant Science 11: 1-15.

Zhang, X., et al. (2020). "Photosynthetic Properties of Miscanthus condensatus at Volcanically Devastated Sites on Miyake-jima Island." Plants(9): 1212.

Zsom, T., et al. (2020). "Quality maintenance of broccoli by the use of 1-MCP treatments." Progress in Agricultural Engineering Sciences.

Campbell, P. K., et al. (2019). "Diurnal and Seasonal Variations in Chlorophyll Fluorescence Associated with Photosynthesis at Leaf and Canopy Scales." Remote Sensing 11(5): 488.

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