פרופ' רועי הולצמן
מדעי החיים
מעבדתי מתעניינת בביולוגיה ובאקולוגיה של שלבי חיים צעירים בדגים, המגלים רגישות רבה לשינויי טמפרטורה.
שלב חיים זה הוא הבסיס לחידוש האוכלוסייה ולהבנה כיצד הוא מתמודד עם שינויי אקלים. זהו מרכיב מרכזי ביכולתנו להתמודד עם השפעתם על מערכות אקולוגיות ימיות, דגה ומערכות חקלאיות.
מדעי החיים
- ביולוגיה ימית
Recent publications; the full list can be found on google scholar and http://orcid.org/0000-0002-2334-2551:
Malul D, Holzman R, Shavit U. (2020) Coral tentacle elasticity promotes an out-of-phase motion that improves mass transfer. Proc. R. Soc. B.28720200180 http://doi.org/10.1098/rspb.2020.0180
Perevolotsky T, Martin CH, Rivlin A, Holzman R. 2020 Work that body: fin and body movements determine herbivore feeding performance within the natural reef environment. Proc. R. Soc. B 287: 20201903. http://dx.doi.org/10.1098/rspb.2020.1903
Roesti, M., Anstett, DN., Freeman, BG., Lee-Yaw, JA., Schluter, D., Chavarie, L., Rolland, J. Holzman, R. (2020) Pelagic fish predation is stronger at temperate latitudes than near the equator. Nature Communications 11, 1527. https://doi.org/10.1038/s41467-020-15335-4
Kolker M, Meiri S and Holzman R (2019) Prepared for the future: A strong signal of evolution toward the adult benthic niche during the pelagic stage in Labrid fishes. Evolution 73: 803-816 https://doi.org/10.1111/evo.13694
Sommerfeld, N. and Holzman, R. (2019). The interaction between suction feeding performance and prey escape response determines feeding success in larval fish. Journal of Experimental Biology 222, jeb204834. https://doi.org/10.1242/jeb.204834
Kimmerling, N. Zuqert, O. Amitai,G. Gurevich, T. Armoza-Zvuloni, R. Kolesnikov, I. Berenshtein, I. Melamed, S. Gilad, S. Benjamin, S. Rivlin, A. Ohavia, M. , Paris C.B. Holzman, R. Kiflawi, M. Sorek, R. (2017) Quantitative species-level ecology of reef fish larvae via metabarcoding. Nature Ecology and Evolution. https://doi.org/10.1038/s41559-017-0413-2
Jacobs, CN and Holzman R. (2018) Conserved spatio-temporal patterns of suction-feeding flows across aquatic vertebrates: a comparative flow visualization study. Journal of Experimental Biology 221, jeb174912. https://doi.org/10.1242/jeb.174912
China, V., Levi, L, Elmaliach, T, Liberzon, A. and R. Holzman (2017). Hydrodynamic regime affects feeding success and encounter rates with prey to determine feeding rates of larval fish during the critical period. Proceedings of the Royal Society B: Biological Sciences 284: 20170235. PDF
Holzman, R. V. China, S. Yaniv, M. Zilka. (2015) Hydrodynamic constraints of suction feeding in low Reynolds numbers, and the critical period of larval fishes. Integrative and Comparative Biology 55, 48-61. PDF
China, V and Holzman R. (2014) Hydrodynamic starvation in first-feeding larval fishes. PNAS 111, 8083–8088. PDF
Holzman, R., S. Percol-Pinkel, G. Zilman (2014) Mexican blind cavefish use mouth suction to detect obstacles. Journal of Experimental Biology 217, 1955-1962. PDF
Holzman, R., D.C. Collar, S.A. Price, C.D. Hulsey, R.C. Thomson and P.C. Wainwright (2012). Biomechanical trade-offs bias rates of evolution in the feeding apparatus of fishes. Proceedings of the Royal Society B: Biological Sciences” 279, 1287-1292. PDF
Price, S.A., R. Holzman, T.J. Near and P.C. Wainwright. (2011). Coral Reefs Promote the Evolution of Morphological Diversity and Ecological Novelty in Labrid Fishes. Ecology Letters 14: 462-469. PDF
Holzman, R., D.C. Collar, R.S. Mehta. and P.C. Wainwright. (2011). Functional complexity mitigates evolutionary trade-offs. American Naturalist 177 :E69-83. PDF
Holzman, R., and P.C. Wainwright (2009). How to surprise a copepod: Strike kinematics reduce hydrodynamic disturbance and increase stealth of suction feeding fish. Limnology & Oceanography. 54, 2201–2212. PDF
Holzman, R., S.W. Day, Mehta R.S. and P.C. Wainwright. (2008) Jaw protrusion enhances forces exerted on prey by suction feeding fishes. Journal of the Royal Society, Interface 5: 1445–1457. PDF
