• Čeština (Česká republika)
  • English (United Kingdom)

Impaktované publikace

Deset nejvýznamějších publikací vytvořených týmem infrastruktury:

1. Rascher U., Alonso L., et al. (Hanuš J.): Sun-induced fluorescence - a new probe of photosynthesis: First maps from the imaging spectrometer HyPlant. Global Change Biology 21 (12): 4673-4684, 2015 (IF = 9.028, Times Cited: 14). The infrastructure of remote sensing was used.

2. Gargallo-Garriga A., Sardans J., Pérez-Trujillo M., Oravec M., Urban O., Jentsch A. Kreyling J., Beierkuhnlein C., Parella T., Penuelas J.: Warming differentially influences the effects of drought on stoichiometry and metabolomics in shoots and roots. New Phytologist 207 (3): 591-603, 2015 (IF = 7.554, Times Cited: 6). The infrastructure for non-specific profiling of metabolome (HPLC-MS) was used.

3. Ač A., Malenovský Z., Olejníčková J., Gallé A., Rascher U., Mohammed G.: Meta-analysis assessing potential of steady-state chlorophyll fluorescence for remote sensing detection of plant water, temperature and nitrogen stress. Remote Sensing of Environment 168: 420-436, 2015 (IF = 7.388, Times Cited: 9). The RI of remote sensing for ground measurement of plant fluorescence and aerial photography was used.

4. Malenovský Z., Homolová L., Zurita-Milla R., Lukeš P., Kaplan V., Hanuš J., Gastellu-Etchegory J.P., Schaepman M.E.: Retrieval of spruce leaf chlorophyll content from airborne image data using continuum removal and radiative transfer. Remote Sensing of Environment: 31: 85–102, 2013 (IF = 7.388, Times Cited: 32). The infrastructure of remote sensing was used.

5. Robson M.T., Klem K., Urban O., Jansen M.A.K.: Re-interpreting plant morphological responses to UV-B radiation. Plant, Cell and Environment 38(5): 856–866, 2014 (IF = 6.443, Times Cited: 20). In the framework of close cooperation and using experimental background of the RI (lighting bench) a publication of the international team was written (dr. Jansen leads COST projects dealing with the effect of ultraviolet (UV) radiation on plants (COST Action FA0906; UV4Growth) and also with collaboration with dr. T.M. Robson – University of Helsinki).

6. Meijon M., Feito I., Oravec M., Delatorre C., Weckwerth W., Majada J., Valledor L.: Exploring natural variation of Pinus pinaster Aiton using metabolomics: Is it possible to identify the region of origin of a pine from its metabolites? Molecular Ecology 25(4): 959-976, 2016 (IF = 6.232, Times Cited: 3). The infrastructure of biochemical laboratory (liquid chromatography) was used.

7. Kováč D., Malenovský Z., Urban O., Špunda V., Kalina J., Ač A., Kaplan V., Hanuš J.: Response of green reflectance continuum removal index to the xanthophyll de-epoxidation cycle in Norway spruce needles. Journal of Experimental Botany 64(7): 1817–1827, 2013 (IF = 6.229, Times Cited: 5). The infrastructure of manipulative experiments was used.

8. Gargallo-Garriga A., Sardans J., Perez-Trujillo M., Rivas-Ubach A., Oravec M., Večeřová K., Urban O., et al.: Opposite metabolic responses of shoots and roots to drought. Scientific Reports 4: Article number 6829, doi: 10.1038/srep06829, 2014 (IF = 5.525, Times Cited: 11). The infrastructure for non-specific profiling of metabolome (HPLC-MS, GC-MS) was used.

9. Urban O., Klem K., Ač A., Havranková K., Holišová P., Navrátil M., Zitová M., Kozlová K., Pokorný R., Šprtová M., Tomášková I., Špunda V., Grace J.: Impact of clear and cloudy sky conditions on the vertical distribution of photosynthetic CO2 uptake within a spruce canopy. Functional Ecology 26(1): 46–55, 2012 (IF = 5.286, Times Cited: 33). The RI for tree cultivation (glass domes) and infrastructure for physiological analyses (gazometric system, fluorometer etc.) was used.

10. Crabbe R.A., Dash J., Rodriguez-Galiano V.F., Janouš D., Pavelka M., Marek M.V.: Extreme warm temperatures alter forest phenology and productivity in Europe. Science of the Total Environment 563: 486–495, 2016 (IF = 4.317, Times Cited: 2). The infrastructure of observatory facilities was used.

 

Deset nejvýznamějších publikací vytvořených externími uživately infrastruktury:

1. Trnka M., Rötter R.P., Ruiz-Ramos M., Kersebaum K.C., Olesen J.E., Žalud Z., Semenov M.A.: Adverse weather conditions for European wheat production will become more frequent with climate change. Nature Climate Change 4: 637-643, 2014 (IF = 19.257, Times Cited: 57). The RI of manipulative experiments was used.

2. Anav A., Friedlingstein P., Beer C., Cials P., Harper A., Jones C., Murray-Tortarolo G., Papale D., Parazoo N.C., Peylin P., Piao S., Sitch S., Viovy N., Wiltshire A., Zhao M.: Spatiotemporal patterns of terrestrial gross primary production: A review. Reviews of Geophysics 53(3): 785-818, 2015 (IF = 16.097, Times Cited: 18). The infrastructure of ecosystem stations was used.

3. Calfapietra C., Penuelas J., Niinemets Ü.: Urban plant physiology: adaptation-mitigation strategies under permanent stress. Trends in Plant Science 20 (2): 72-75, 2015 (IF = 14.191, Times Cited: 15). The infrastructure for physiological analyses (gazometric system, fluorometer etc.) was used.

4. Rautianien M., Lukeš P.: Spectral contribution of understory to forest reflectance in a boreal site: an analysis of EO-1 Hyperion data. Remote Sensing of Environment 171: 98-104, 2015 (IF = 7.388, Times Cited: 3). The infrastructure of remote sensing was used.

5. Widlowski J.L., Mio C., Disney M., et al. (Homolová L.): The fourth phase of the radiative transfer model imtercomparison (RAMI) exercise: Actualcanopy scenarios and conformity testing. Remote Sensing of Environment 169: 418-437, 2015 (IF = 7.388, Times Cited: 6). The infrastructure of remote sensing was used.

6. Bidmanová Š., Kotlanova M., Rataj T., Damborský J., Trtílek M., Prokop Z.: Fluorescence-based biosensor for monitoring of environmental pollutants: From concept to field application. Biosensors and Bioelectronics 84: 97-105, 2016 (IF = 6.675, Times Cited: 0). The infrastructure of manipulative experiments was used.

7. Zavřel T., Knoop H., Steuer R., Jones P.R., Červený J, Trtílek M.: A quantitative evaluation of ethylene production in the recombinant cyanobacterium Synechocystis sp PCC 6803 harboring the ethylene-forming enzyme by membrane inlet mass spectrometry. Bioresource Technology 202: 142-151, 2016 (IF = 5.744, Times Cited: 1). The infrastructure of manipulative experiments (bioreactors) and biochemical laboratory were used.

8. Grosskinsky D.K., Tafner R., Moreno M.V., Stenglein S.A., Garcia de Salamone I.E., Nelson L.M., Novák O., Strnad M., van der Graaff E., Roitsch T.: Cytokinin production by Pseudomonas fluorescens G20-18 determines biocontrol activity against Pseudomonas syringae in Arabidopsis. Scientific Reports 6: Article Number 23310, 2016 (IF = 5.525, Times Cited: 1). The infrastructure of manipulative experiments (bioreactors) and biochemical laboratory were used.

9. Tiwary A., Williams L.D., Heidrich O., Namdeo A., Bandaru V., Calfapietra C.: Development of multi-functional streetscape green infrastructure using a performance index approach. Environmental Pollution 208: 209-220, 2016 (IF = 5.008, Times Cited: 1). The infrastructure of physiological field tools was used.

10. Pallozzi E., Guidolotti G., Ciccioli P., Brilli F., Feil S., Calfapietra C.: Does the novel fast-GC coupled with PTR-TOF-MS allow a significant advancement in detecting VOC emissions from plants? Agricultural and Forest Meteorology 216: 232-240, 2016 (IF = 4.839, Times Cited: 2). The infrastructure of biochemical laboratory (GC-MS) was used.