20 nejcitovanějších publikací, kde jsou autory pracovníci VÚRV, v.v.i.

  1. Honěk, A. 1993. Intraspecific variation in body size and fecundity in insects – a general relationship. OIKOS, 66: 483-492.
    IF 3,7; suma citací: 831
  2. Kosová, K. et al. 2011. Plant proteome changes under abiotic stress – Contribution of proteomics studies to understanding plant stress response. Journal of Proteomics, 74: 1301-1322.
    IF 3,7; suma citací: 319
  3. Baldrian, P. et al. 2012. Active and total microbial communities in forest soil are largely different and highly stratified during decomposition. ISME Journal, 6: 248-258.
    IF 9,5; suma citací: 272
  4. Trudgill, D.L. et al. 2005. Thermal time – concepts and utility. Annals of Applied Biology, 146: 1-14.
    IF 2,0; suma citací: 249
  5. Wenzl, P. et al. 2006. A high-density consensus map of barley linking DArT markers to SSR, RFLP and STS loci and agricultural traits. BMC Genomics, 7, Article Number: 206.
    IF3,7; suma citací: 238
  6. Coleman, K. et al.1997. Simulating trends in soil organic carbon in long-term experiments using RothC-26.3. Geoderma, 81: 29-44.
    IF 3,7; suma citací: 182
  7. Janska, A. 2010. Cold stress and acclimation – what is important for metabolic adjustment? Plant Biology, 12: 395-405.
    IF 2.2; suma citací: 163
  8. Kapicka A. et al. 1999. Proxy mapping of fly-ash pollution of soils around a coal-burning power plant: a case study in the Czech Republic. Journal of Geochemical Exploration, 66: 291-297.
    IF 2,9; suma citací: 159
  9. Pavela, R. 2015. Essential oils for the development of eco-friendly mosquito larvicides: A review. Industrial Crops and Products, 76: 174-187.
    IF 3,8; suma citací: 151
  10. Kelly R.H. et al. 1997. Simulating trends in soil organic carbon in long-term experiments using the century model. Geoderma, 81: 75-90.
    IF 3,7; suma citací: 142
  11. Kosová, K. et al. 2007. The role of dehydrins in plant response to cold. Biologia Plantarum, 51: 601-617.
    IF 1,4; suma citací: 127
  12. Glasa, M. et al. 2004. Geographically and temporally distant natural recombinant isolates of Plum pox virus (PPV) are genetically very similar and form a unique PPV subgroup. Journal of General Virology, 85: 2671-2681.
    IF 2,5; suma citací: 117
  13. Leita, L. et al. 1995. Bioavailability and effects of heavy-metals on soil microbial biomass survival during laboratory incubation. Biology and Fertility of Soils, 19: 103-108.
    IF 3,8; suma citací: 115
  14. Sagova-Mareckova, M. et al. 2008. Innovative methods for soil DNA purification tested in soils with widely differing characteristics. Applied and Environmental Microbiology, 74: 2902-2907.
    IF 3,6; suma citací: 108
  15. Honěk, A. 1996. Geographical variation in thermal requirements for insect development. European Journal of Entomology, 93: 303-312.
    IF 1,1; suma citací: 108
  16. Honěk, A. et al. 2003. Ground beetles (Carabidae) as seed predators. European Journal of Entomology, 100: 531-544.
    IF 1,0; suma citací: 101
  17. Leita, L. et al. 1999. Influence of inorganic and organic fertilization on soil microbial biomass, metabolic quotient and heavy metal bioavailability. Biology and Fertility of Soils, 28: 371-376.
    IF 3,8; suma citací: 101
  18. Hassink, J. et al. 1997. Size and density fractionation of soil organic matter and the physical capacity of soils to protect organic matter. European Journal of Agronomy, 7: 189-199.
    IF 3,2; suma citací: 97
  19. Roussel, V. et al. 2005. SSR allelic diversity changes in 480 European bread wheat varieties released from 1840 to 2000. Theoretical and Applied Genetics,111: 162-170.
    IF 3,9; suma citací: 94
  20. Pavela, R. 2005. Insecticidal activity of some essential oils against larvae of Spodoptera littoralis. Fitoterapia, 76: 691-696.
    IF 2,6; suma citací: 92
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