Publications

Xu, H-F., Dai, G-Z., Bai, Y., Shang, J-L., Zheng, B., Ye, D-M., Shi, H., Kaplan, A., and Qiu, B-S (2022) Coevolution of tandemly repeated hlips and RpaB-like transcriptional factor confers desiccation tolerance to the desert subaerial Nostoc species. PNAS (in press)
Zhang,X., Xia,Y., Jia, Y., Sukenik, A., Kaplan, A., Song, C., Dai, G., Bai, F., Li,L. and L. Song. 2021. The efficacy of alkyl quaternary ammonium cations and H2O2 in controlling cyanobacterial blooms - laboratory and mesocosm studies. Microorganisms 1342259.
Xu, H-F., Raanan, H., Dai, G.-Z., Oren, N., Berkowicz, S., Murik, O., Kaplan, A. and B-S. Qiu (2021) Reading and surviving the harsh conditions in desert biological soil crust: The cyanobacterial viewpoint FEMS Microbiol Rev DOI: 10.1093/femsre/fuab036
Sukenik, A. and A. Kaplan (2021) Cyanobacterial harmful algal blooms in aquatic ecosystems: A comprehensive outlook on current and emerging mitigation and control approaches. Microorganisms 2021, 9, 1472. https://doi.org/10.3390/ microorganisms9071472
Gefen-Treves, S., Bartholomäus, A., Horn, F., Zaborowski, A. B. Tchernov, D., Wagner, D., Oren, A. and A. Kaplan (2021) The microbiome associated with the reef builder Neogoniolithon sp. in the eastern Mediterranean. Microorganisms 2021, 9, 1374. https://doi.org/10.3390/ microorganisms9071374
Omidi, A., Pflugmacher, S., Kaplan, A. Kim, Y. J. and M. Esterhuizen (2021) Reviewing Interspecies Interactions as a Driving Force Affecting the Community Structure in Lakes via Cyanotoxins. Microorganisms 9, 1583, https://doi.org/10.3390/ microorganisms9081583
Kedem, I., Milrad, Y., Kaplan, A. and I. Yacoby (2021) Juggling Lightning: How Chlorella ohadii handles extreme energy inputs without damage. Photosynth Res DOI : 10.1007/s11120-020-00809-9
Kedem, I., Treves, H., Noble, G., Hagemann, M., Murik, O., Raanan, H., Oren, N., Giordano, M. and A. Kaplan (2020) Keep your friends close and your competitors closer: novel interspecies interaction in desert biological sand crusts. Phycologia https://doi.org/10.1080/00318884.2020.1843349
Hagemann, M. and A. Kaplan (2020) Is the structure of CO2-hydrating complex I compatible with the cyanobacterial CO2-concentrating mechanism? Plant Physiol,. https://doi.org/10.1104/pp.20.00220
Gefen-Treves, S. Kedem, I. Weiss, G. Wagner, D. Tchernov, D. Kaplan, A. (2019) Acclimation of a rocky shore algal reef builder Neogoniolithon sp. to changing illuminations. Limnol and Oceanogr DOI:10.1002/lno.11245
Daniel, E., Weiss, G., Murik, O., Sukenik, A., Lieman-Hurwitz, J., and Kaplan, A. (2019) The response of Microcystis aeruginosa strain MGK to a single or two consecutive H2O2 applications. Environ Microbiol Rep DOI: 10.1111/1758-2229.12789.
Weiss, G., Kovalerchick, D., Lieman-Hurwitz, J., Murik, O., De Philippis, R., Carmeli, S., Sukenik. A. and A. Kaplan (2019) Increased algicidal activity of Aeromonas veronii in response to Microcystis aeruginosa: inter-species crosstalk and secondary metabolites synergism. Environ Microbiol https://doi.org/10.1111/1462-2920.14561
Oren, N., Raanan, H., Kedem, I., Turjeman, A., Bronstein, M., Kaplan, A., and Murik, M. (2019) Desert cyanobacteria prepare in advance for dehydration and rewetting: The role of light and temperature sensing. Mol Ecol DOI: 10.1111/mec.15074
Weiss G, Kovalerchick D, Murik O, Sukenik A, Kaplan A, Carmeli S, 2019. Secondary metabolites of Aeromonas veronii strain A134 isolated from a Microcystis aeruginosa bloom. Metabolites Manuscript ID: metabolites-515226.
Gefen-Treves, S. Kedem, I. Weiss, G. Wagner, D. Tchernov, D. Kaplan, A. (2019) Acclimation of a rocky shore algal reef builder Neogoniolithon sp. to changing illuminations. Limnol and Oceanogr DOI:10.1002/lno.11245
Daniel, E., Weiss, G., Murik, O., Sukenik, A., Lieman-Hurwitz, J., and Kaplan, A. (2019) The response of Microcystis aeruginosa strain MGK to a single or two consecutive H2O2 applications. Environ Microbiol Rep DOI: 10.1111/1758-2229.12789
Sun, N., Han, X., Xu, M., Kaplan, A., Espie, G. and Mi, H. (2018) A thylakoid-located carbonic anhydrase regulates CO2 uptake in the cyanobacterium Synechocystis sp. PCC 6803. New Phytol doi:10.1111/nph.15575
Rai, S., Lucius, S., Kern, R., Bauwe, H., Kaplan, A., Kopka, J. and M. Hagemann (2018) The Synechocystis sp. PCC 6803 genome encodes up to four 2-phosphoglycolate phosphatases. Front Plant Sci https://doi.org/10.3389/fpls.2018.01718
Mugnai G, Rossi F, Felde VJMNL, Colesie C, Büdel B, Peth S, Kaplan A, De Philippis R. (2018) The potential of the cyanobacterium Leptolyngbya ohadii as inoculum for stabilizing bare sandy substrates. Soil Biol Biochem https://doi.org/10.1016/j.soilbio.2018.08.007.
Ewe D, Tachibana M, Kikutani S, Gruber A, Río Bártulos C, Konert G, Kaplan A, Matsuda Y, Kroth P (2018) The intracellular distribution of inorganic carbon fixing enzymes does not support the presence of a C4 pathway in the diatom Phaeodactylum tricornutum. Photosy Res (https ://doi.org/10.1007/s1112 0-018-0500-5)
Mugnai, G., Rossi, F., Felde, V.J.M.N.L., Colesie, C., Büdel, B., Peth, S., Kaplan, A., and De Philippis, R. (2018). Development of the polysaccharidic matrix in biocrusts induced by a cyanobacterium inoculated in sand microcosms. Biol Fertil Soils 54: 27-40
Oren N, Raanan H, Murik O, Keren N, Kaplan A (2017) Dawn illumination serves as a signal preparing desert cyanobacteria towards forthcoming dehydration. Curr Biol 10.1016/j.cub.2017.08.027
Ananyev F, Gates C, Kaplan A, Dismukes GC (2017) Photosystem II-cyclic electron flow powers exceptional photoprotection and record growth in the microalga Chlorella ohadii Biochem Biophys Acta- Bioenerg doi.org/10.1016/j.bbabio.2017.07.001.
Treves H, Murik O, Kedem I, Eisenstadt D, Meir S, Rogachev I, Szymanski J, Keren N, Orf I, Tiburcio AF, Alcázar R., Aharoni A., Kopka J. and A. Kaplan (2017) Metabolic flexibility underpins growth capabilities of the fastest growing alga. Curr Biol doi:10.1016/j.cub.2017.07.014..
Kaplan, A. (2017) On the cradle of CCM research: discovery, development, and challenges ahead. J Exp Bot DOI: https://doi.org/10.1093/jxb/erx122
Mugnai, G., Rossi, F., Felde, V.J.M.N.L., Colesie, C., Büdel, B., Peth, S., Kaplan, A., and De Philippis, R. (2017). Development of the polysaccharidic matrix in biocrusts induced by a cyanobacterium inoculated in sand microcosms. Biol Fertil Soils DOI 10.1007/s00374-017-1234-9.
Hagemann, M., Henneberg, M., Felde, V., Berkowicz, S., Raanan, H.,Pade, N.,Felix-Henningsen, P. and A. Kaplan (2016) Cyanobacterial populations in biological soil crusts of the northwest Negev desert, Israel – effects of local conditions and disturbance. FEMS Microbiol Ecol doi: 10.1093/femsec/fiw228
Murik O, Oren N, Shotland Y, Raanan H, Treves H, Kedem I, Keren N, Hagemann M, Pade N, Kaplan A. 2016. What distinguishes cyanobacteria able to revive after desiccation from those that cannot: the genome aspect. Environ Microbiol DOI: 10.1111/1462-2920.13486..
Orf, I., Schwarz, D., Kaplan, A., Kopka, J., Hess, W.R., Hagemann, M., and Klähn, S. (2016) CyAbrB2 contributes to the transcriptional regulation of low CO2 acclimation in Synechocystis sp. PCC 6803. Plant Cell Physiol 57: 2232-2243..
Kaplan, A. (2016) Cyanophages: starving the host to recruit resources. Curr Biol 26: R511-R513.
Raanan, H. ,Oren, N., Treves, H. Keren, N. Ohad, I. Berkowicz, S. M. Hagemann, M. Koch, M. Shotland, Y. and A. Kaplan (2016) Towards clarifying what distinguishes cyanobacteria able to resurrect after desiccation from those that cannot: The photosynthetic aspect. Biochim Biophys Acta – Bioenerg DOI: 10.1016/j.bbabio.2016.02.007
Treves, H., Raanan, H., Kedem, I., Murik, O. Keren, N., Zer, H., Berkowicz, S.M., Giordano, M., Norici, A., Shotland, Y., Ohad, I. and A. Kaplan (2016) The mechanisms whereby the green alga Chlorella ohadii, isolated from desert soil crust, exhibits unparalleled photodamage resistance. New Phytologist 210: 1229-1243.
Raanan H, Oren N, Treves H, Berkowicz SM, Hagemann M, Padec N, Keren N, Kaplan A (2016) Simulated soil crust conditions in a chamber system provide new insights on cyanobacterial acclimation to desiccation Environ Microbiol 18: 414-426 .
Bar-Eyal, L., Eisenberg, I., Faust, A., Raanan, H., Nevo, R., Rappaport, F., Krieger-Liszkay, A., Setif, P., Thurotte, A., Reich, Z., Kaplan, A., Ohad, I., Paltiel, Y., and N. Keren (2015) An easily reversible structural change underlies mechanisms enabling desert crust cyanobacteria to survive desiccation. BBA-Bioenergetics 1847: 1267-1273.
Kaplan, A., Weiss, G. and A. Sukenik (2016) Cyanobacterial secondary metabolites mediate inter/intra species communication in the water body. Environm Microbiol 18: 305-306
Raanan, H., Felde, V. J. M. N. L., Peth, S., Drahorad, S., Ionescu, D., Eshkol, G., Treves, H., Felix-Henningsen, P., Berkowicz, S.M. Keren, N., Horn, R., Hagemann, M. and A. Kaplan (2016) The 3D structure and cyanobacterial activity in a desert biological soil crust. Environ Microbiol 18: 372-383
Hadas, O., Kaplan, A. and A. Sukenik (2015) Long-term changes in cyanobacteria populations in Lake Kinneret (Sea of Galilee), Israel; an eco-physiological outlook. Life doi: 10.3390/life5010418.
Burnap, RL, Hagemann, M. And A.Kaplan (2015) Regulation of the CO2 concentrating mechanism in cyanobacteria. Life 5: 348-371
Sukenik, A., Hadas, O., and A. Kaplan (2014) Cyanobacteria. In: T. Zohary, A. Sukenik, T. Berman and Nishri A. (eds.), Lake Kinneret, Ecology and Management, Aquatic Ecology Series 6, 213-226. DOI 10.1007/978-94-017-8944-8_12, Springer, Dordrecht
Hagemann, M., Henneberg, M., Felde, V.J.M.N.L., Drahorad, S.L., Berkowicz, S.M., Felix-Henningsen, P. and A. Kaplan (2015) Cyanobacterial diversity in biological soil crusts along a rainfall gradient of the North/West Negev desert, Israel. Mol Ecol 70: 219-230
Haimovich-Dayan, M., Lieman-Hurwitz, J., Orf, I., Hagemann, M. and A. Kaplan (2014)Does 2-phosphoglycolate serve as an internal signal molecule of inorganic carbon deprivation in the cyanobacterium Synechocystis sp. PCC 6803?. Environm Microbiol 17: 1794-1804
Murik O., Elboher, A. and A. Kaplan (2014) Dehydroascorbate; a possible surveillance molecule of oxidative stress and PCD in the green alga Chlamydomonas reinhardtii. New Phytol 202: 471-484
Treves H, Raanan H, Finkel MO, Berkowicz SM, Keren N, Kaplan A (2013) A newly isolated Chlorella sp. from desert sand crusts exhibits a unique resistance to excess light intensity. FEMS Microbiol Ecol 86: 373-380
Haimovich-Dayan, M., Garfinkel, N., Ewe, D., Marcus, Y., Gruber, A., Wagner, H., Kroth. P. G. and A. Kaplan (2013) The role of C4 metabolism in the marine diatom Phaeodactylum tricornutum. New Phytol. 197: 177–185
Harel, M., Weiss, G.,Lieman-Hurwitz, J.,Gun, J.,Lev, O..Lebendiker, M., Temper, V., Block, C., Sukenik, S., Zohary, T., Braun, S. and A. Kaplan (2013) Interactions between Scenedesmus and Microcystis may be used to clarify the role of secondary metabolites. Environm Microbiol Rep 5: 97–104
Bar-Yosef, Y., Murik O. Sukenik, A. Hadas, O. and A. Kaplan (2012) Multiannual variations in phytoplankton populations: What distinguished the blooms of Aphanizomenon ovalisporum in Lake Kinneret in 2010 from 2009? Environm Microbiol Rep DOI: 10.1111/j.1758-2229.2012.00351.x
Kaplan, A. Harel, M. Kaplan-Levy, R. N. Hadas, O. Sukenik, A. and E Dittmann (2012) The languages spoken in the water body (or the biological role of cyanobacterial toxins). Frontier in aquatic Microbiology 3:138. doi: 10.3389/fmicb.2012.00138.
Harel, M., Weiss, G., Daniel, E., Wilenz, A., Hadas, O., Sukenik, A., Sedmak, B., Dittmann, E., Braun S. and A. Kaplan (2012) Casting a net: Fibers produced by Microcystis sp. in field and laboratory populations Environ Microbiol Rep DOI: 10.1111/j.1758-2229.2012.00339.x
Sukenik, A.,Hadas, O., Kaplan, A. and A. Quesada (2012) Invasion of Nostocales (cyanobacteria) to subtropical and temperate freshwater lakes – Physiological, regional and global driving forces. Frontier in aquatic Microbiology 3:86. doi: 10.3389/fmicb.2012.00086
Hadas, O., Pinkas, R., Malinsky-Rushansky N., Nishri, A., Kaplan, A., Rimmer A. and A Sukenik (2012) Appearance and establishment of diazotrophic cyanobacteria in Lake Kinneret (Sea of Galilee). Freshwater Biology DOI: 10.1111/j.1365-2427.2012.02792.x.
Fukuzawa H, Ogawa T, Kaplan A (2011) The uptake of CO2 by cyanobacteria and microalgae In: Advances in Photosynthesis and Respiration, Govindjee and Sharkey, T.D. (eds.) Photosynthesis: Plastid Biology, Energy Conversion and Carbon Assimilation Eaton-Rye, J.J Tripathy, B.C.(eds.) 34: 625-650
Haimovich-Dayan, M., Kahlon, S., Hihara, Y., Hagemann, M., Ogawa, T., Ohad, I., Lieman-Hurwitz, J. and A. Kaplan (2011) Cross-talk between photomixotrophic growth and CO2 concentrating mechanism in Synechocystis sp. strain PCC 6803. Environm Microbiol 13: 1767-1777.
Zilliges Y, Kehr JC, Meissner S, Ishida K, Mikkat S, et al. (2011) The cyanobacterial hepatotoxin microcystin binds to proteins andi ncreases the fitness of Microcystis under oxidative stress conditions. Plos One 6. e17615.
Ohad, I., Berg, A., Berkowicz, S.H., Kaplan, A. and N. Keren (2011) Photoinactivation of photosystem II: is there more than one way to skin a cat?. Physiol Plant 142: 79–86.
Nedbal, L., Červený, J., Keren, N. and A. Kaplan (2010) Experimental validation of a non-equilibrium model of CO2 fluxes between gas, liquid medium, and algae in a flat panel photobioreactor. J Ind. Microbiol. Biotechnol. 37: 1319-1326.
Bar-Yosef,Y., Sukenik,A., Hadas, O., Viner-Mozzini, Y. and A. Kaplan(2010) Enslavement in the water body by toxic Aphanizomenon ovalisporum inducing alkaline phosphatase in phytoplanktons. Curr. Biol. 20: 1557-1561 doi:10.1016/j.cub.2010.07.032
Ohad, I., Raanan, H., Keren, N., Tchernov, D. and A. Kaplan (2010) Light-induced changes within photosystem II protects Microcoleus sp. in biological desert sand crusts against excess light PloS ONE 5 : e11000 doi: 10.371/journal.pone 0011000.
Eisenstadt, D., Barkan, E., B. Luz and A. Kaplan (2010) Enrichment of oxygen heavy isotopes during photosynthesis in phytoplankton. Photosynth. Res. 103:97–103.
Hackenberg, C., Engelhardt, A., Matthijs, H.C.P., Wittink, F., Bauwe, H., Kaplan, K. Hagemann, M. (2009) Photorespiratory 2-phosphoglycolate metabolism and photoreduction of O2 cooperate in high light acclimation of Synechocystis sp. strain PCC 6803. Planta 230 Pages: 625-637.
Murik O. and A. Kaplan (2009) Paradoxically, prior acquisition of antioxidant activity enhances oxidative stress-induced cell death. Environm. Microbiol. 11: 2301-2309.
Lieman-Hurwitz, J., Haimovich, M., Shalev-Malul, G., Ishii, A., Hihara, Y., Gaathon, A., Lebendiker, M. and A. Kaplan (2009) A cyanobacterial AbrB-like protein affects the apparent photosynthetic affinity for CO2 by modulating low-CO2-induced gene expression. Environm. Microbiol. 11: 927-936
Eisenhut, M., Ruth, W., Haimovich, M., Bauwe, H., Kaplan, A. and M. Hagemann (2008) The photorespiratory glycolate metabolism is essential for cyanobacteria and might have been conveyed endosymbiontically to plants. Proc. Natl. Acad. Sci. USA 105: 17199–17204.
Bowler, C., Allen, A.E., Badger, J. H., .... Kaplan, A., et al., (2008) The Phaeodactylum genome reveals the dynamic nature and multi-lineage evolutionary history of diatom genomes. Nature 456: 239-244
Tchernov, D., Livne, A., Kaplan, A. and A. Sukenik (2008) The kinetic properties of ribulose-1,5-bisphosphate carboxylase/oxygenase may explain the high apparent photosynthetic affinity of Nannochloropsis sp. to ambient inorganic carbon. Isr. J. Plant Sci. 56: 37-44.
Eisenstadt, D., Ohad, I., Keren, N. and Kaplan, A. (2008) Changes in the photosynthetic reaction center II in the diatom Phaeodactylum tricornutum result in non-photochemical fluorescence quenching. Environm. Microbiol. 10: 1997-2007
Kroth, P.G., Chiovitti, A., Martin-Jezequel, V., Mock, T., Schnitzler Parker, M., Stanley, M.S., Kaplan, A., Caron, L., Gruber, A., Weber, T., Maheswari, U., Armbrust. E.V. and Chris Bowler (2008) A model of the carbohydrate metabolism in the diatom Phaeodactylum tricornutum deduced from whole genome analysis. PLOS One 3(1): e1426. doi:10.1371/journal.pone.0001426
Shalev-Malul, G., Lieman-Hurwitz, J., Viner-Mozzini, Y., Sukenik, A., Gaathon, A., Lebendiker M. and A. Kaplan (2008) An AbrB-like protein might be involved in the regulation of cylindrospermopsin production by Aphanizomenon ovalisporum. Environm. Microbiol. 10:988-99
Kaplan, A., Hagemann, M., Bauwe, H., Kahlon, S. and T. Ogawa (2008) Carbon acquisition by cyanobacteria: mechanisms, comparative genomics and evolution. In Flores ed. The Cyanobacteria: Molecular Biology, Genomics and Evolution, Horizon Press.
Schatz, D., Keren, Y., Vardi, A., Sukenik, A., Carmeli, S., Börner, T., Dittmann E. and A. Kaplan (2007) Towards clarification of the biological role of microcystins, a family of cyanobacterial toxins Environm. Microbiol. 9: 965-970
Nevo, R. Charuvi, D., Shimoni, E., Schwarz, R., Kaplan, A., Ohad, I. and Z. Reich (2007) Thylakoid membrane perforations and vesicles enable molecular traffic in cyanobacteria EMBO J. 26: 1467-1473
Vardi, A., Eisenstadt, D., Murik, M., Berman-Frank, I., Zohary, T., Levine, A. and A. Kaplan (2007) Synchronization of cell death in a dinoflagellate population is mediated by an excreted thiol protease. Environ. Microbiol. 9: 360-369
Eisenhut, M., Hasse, D., Kahlon, S., Lieman-Hurwitz, J., Ogawa, T., Ruth, W., Kaplan, A. and Hagemann, M. (2006) The plant-type C2 glycolate pathway and the bacterial-like glycerate cycle cooperate in the metabolism of phosphoglycolate in cyanobacteria. Plant Physiol. 142: 333-342
Kahlon, S., Beeri, K., Ohkawa, H., Hihara, Y., Murik, O., Suzuki, I., Ogawa, T., and Kaplan, A. (2006) A putative sensor kinase, Hik31, is involved in the response of Synechocystis sp. strain PCC6803 to the presence of glucose. Microbiology 152: 647 - 655
Fukuzawa H, Ogawa T & Kaplan A (2012) The uptake of CO2 by cyanobacteria and microalgae. Photosynthesis: Plastid Biology, Energy Conversion and Carbon Assimilation, Advances in Photosynthesis and Respiration, Vol 34 (Eaton-Rye, JJ, Tripathy, BC & Sharkey, TD, eds.), pp. 625–650. Springer, Dordrecht New York.
Lieman-Hurwitz, J., Rachmilevitch, S., Marcus, Y. and A. Kaplan (2006) Expression of cyanobacterial ictB in higher plants enhanced photosynthesis and growth. In:Plant Responses to Air Pollution and Global Change Edited by Omasa ,I. Nouchi, and L.J.De Kok (Springer-Verlag Tokyo 2005 )
Beresovsky D., O. Hadas, A. Livne, A. Sukenik, A. Kaplan and S. Carmeli (2006) Toxins and Biologically Active Secondary Metabolites of Microcystis sp. isolated from Lake Kinneret Israel J. Chem. 46: 79-87
Ohad, I., Nevo, R., Brumfeld, V., Reich, Z., Tsur, T., Yair, M. and A. Kaplan (2005) Inactivation of photosynthetic electron flow during desiccation of desert biological sand crusts and Microcoleus sp.-enriched isolates. Photochemistry and Photobiology Sciences (special addition) 4: 977-982
Helman,Y., Barkan,E., Luz, B. and A. Kaplan (2005) Fractionation of the three stable oxygen isotopes by oxygen producing and consuming reactions in photosynthetic organisms. Plant Physiology 138: 2292-2298.
Schatz, D., Y. Keren, O. Hadas, S. Carmeli, A. Sukenik and A. Kaplan (2005) Ecological implications of the emergence of non-toxic subcultures from toxic Microcystis strains. Environ. Microbiol. 7: 798-805.
Harel Y., I. Ohad and A. Kaplan (2004) Activation of photosynthesis and resistance to photoinhibition in cyanobacteria within biological desert crust. Plant Physiology 136: 3070-3079
Kaplan, A., Lieman-Hurwitz, J. and D. Tchernov (2004) Resolving the biological role of the Rhesus (Rh) proteins of red blood cells with the aid of a green alga. PNAS 101: 7497-7498.
Helman, Y., Tchernov, D., Reinhold, L., Shibata, M., Ogawa, T., Ohad, I. and A. Kaplan (2003) Genes encoding A-type flavoproteins are essential for photoreduction of O2 in cyanobacteria Current Biology 13: 230-235
Lieman-Hurwitz, J., Rachmilevitch, S., Mittler, R., Marcus Y., and A. Kaplan (2003) Enhanced photosynthesis and growth of transgenic plants that express ictB, a gene involved in HCO3- accumulation in cyanobacteria. Plant Biotechnology J. 1: 43-50.
Ogawa T. and A. Kaplan (2003) Inorganic carbon acquisition systems in cyanobacteria. Photosynthesis Res. 77:105-115.
Tchernov, D., Silverman, J., Luz, B. and A. Kaplan (2003) Massive light-dependent cycling of inorganic carbon between photosynthetic microorganisms and their surroundings. Photosynthesis Res. 77: 95-103.
Ogawa T. and A. Kaplan (2002) Inorganic carbon acquisition systems in cyanobacteria. Photosynthesis Res. 77:105-115.
Hadas, O., Pinkas, R., Malinski-Roshansky, N. Sukenik, A. and A. Kaplan (2002) Cyanobacteria in Lake Kinneret : Physiological and ecological adaptations. Verh. Internat. Verein. Limnol. 28: 996-1000.
Vardi, A., Schatz, D., Beeri, K., Motro, U., Sukenik, A., Levine, A. and A. Kaplan (2002) Dinoflagellate-cyanobacterium communication may determine the composition of phytoplankton assemblage in a mesotrophic lake. Current Biology 12: 1767-1772.
Sukenik, A., Eshkol, R., Livne, A., Hadas, O., Rom, M., Tchernov, D., Vardi, A., A. Kaplan (2002) Inhibition of growth and photosynthesis of the dinoflagellate Peridinium gatunense by Microcystis sp. (cyanobacteria): A novel allelopathic mechanism. Limnol Oceanogr 47: 1656-1663.
Pnueli, L., Hallak-Herr, E., Rozenberg, M., Cohen, M., Goloubinoff, P., Kaplan, A. and Mittler, R. (2002). Mechanism of dormancy and drought tolerance in the desert legume Retama raetam. Plant J. 31: 319-330
Shibata, M., Katoh, H., Sonoda, M., Ohkawa, H., Shimoyama, M., Fukuzawa, H., Kaplan, A. and Teruo Ogawa (2002) Genes Essential to Sodium-Dependent Bicarbonate Transport in Cyanobacteria: Function and Phylogenetic analysis. JBC 277: 18658-18664
Merquiol, E., Pnueli, L., Cohen, M., Simovitch, M., Goloubinoff, P., Kaplan, A. and R. Mittler (2002) Seasonal and diurnal variations in gene expression in the desert legume Retama raetam. Plant Cell Environ. 25:1627-1638
Shalev-Alon, G., Sukenik, A., Livnah, O., R. Schwarz and A. Kaplan (2002) A novel gene encoding amidinotransferase in the cylindrospermopsin producing cyanobacterium Aphanizomenon ovalisporum. FEMS Microbiol. Lett. 209: 83-87.
Hadas, O., Pinkas, R., Malinsky-Rushansky, N., Kaplan, A., Carmeli, S., Sukenik, A. (2001) The Aphanizomenon ovalisporum bloom in Lake Kinneret: Ecological and physiological aspects.Verhandlungen - Internationale Vereinigung fuer Theoretische und Angewandte Limnologie 27, 2954-2958.
Shibata, M., Ohkawa, H., Kaneko, T., Fukuzawa, H., Tabata, S., Kaplan, A. and T. Ogawa (2001) Distinct constitutive and low-CO2-induced CO2 uptake systems in cyanobacteria: Novel genes involved and their phylogenetic relationship with homologous genes in other organisms. Proc. Natl. Acad. Sci. USA 98: 11789-11794
Tchernov, D., Helman, Y., Keren, N., Luz, B., Ohad, I., Reinhold, L., Ogawa, T. and Kaplan, A. (2001) Passive entry of CO2 and its energy-dependent intracellular conversion to HCO3- in cyanobacteria are driven by a photosystem I- generated ∆µH+ . J. Biol Chem. 276: 23450-23455
Kaplan, A.,. Helman, Y., Tchernov, D. and Reinhold, L. (2001) Acclimation of photosynthetic microorganisms to changing ambient CO2 concentration. Proc. Natl. Acad. Sci. USA 98: 4817-4818.
Hadas, O., Pinkas, R., Malinsky-Rushansky, N., Shalev-Alon, G., Delphine, E., Berner, T., Sukenik A. and A. Kaplan (2002) Can the physiological parameters determined in the laboratory explain the bloom of Aphanizomenon ovalisporum in Lake Kinneret? Eur. J Phycology 37: 259-267
Hihara, Y., Kamei, A., Kanehisa, M., Kaplan, A. Ikeuchi, M. (2001) DNA Microarray Analysis of cyanobacterial Gene Expression during Acclimation to High Light. Plant Cell 13:793-806.
Mittler, R. Merquiol, E. Hallak-Herr, E. Rachmilevitch, S. Kaplan, A. Cohen, M. (2001) Living under a “dormant” canopy: a molecular acclimation mechanism of the desert plant Retama raetam. Plant J. 25:407-416.
Vardi, A. Berman-Frank, I., Rozenberg, T., Hadas, O., Kaplan, A., Levine, A. (1999) Programmed Cell Death of the Bloom Forming Dinoflagellate Peridinium gatunense is Mediated by CO2 limitation and Oxidative Stress. Curr. Biol. 9: 1061-1064.
Schatz, D., Eshkol, R., Kaplan, A., Hadas, O., Sukenik, A. 1999 Molecular monitoring of toxic cyanobacteria. Arch. Hydrobiol. Spec. Issues Advanc. Limnol. 55: 45-54.
Hadas, O., Pinkas, R., Delphine, E., Vardi, A., Kaplan, A. Sukenik, A. 1999 Limnological and ecological aspects of Aphanizomenon ovalisporum bloom in Lake Kinneret, Israel. J Plankton Research 21: 1439-1453
Kaplan, A., Reinhold, L. (1999) The CO2-concentrating mechanism of photosynthetic microorganisms. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50: 539-570
Kaplan, A., Ronen-Tarazi, M., Tchernov, D., Bonfil, D.J., Zer, H., Schatz, D., Vardi, A., Hassidim, M., Reinhold, L. (1998) The inorganic carbon-concentrating mechanism of cyanobacteria: Genes and ecological significance. In Peschek, G. A., Loeffelhardt, W. Schmetterer G. eds. The phototrophic prokaryotes. Kluwer Academic New York pp 561-571.
Bonfil, D. J., Ronen-Tarazi, M., Sültemeyer, D., Lieman-Hurwitz, J., Schatz, D., Kaplan, A. (1998) A putative HCO3- transporter in the cyanobacterium Synechococcus sp. strain PCC 7942. FEBS Lett. 430: 236-240
Ronen-Tarazi, Bonfil, D. J., Schatz, D., Kaplan, A. (1998) Cyanobacterial mutants impaired in bicarbonate uptake isolated with the aid of an inactivation library. Can. J. Bot., special issue, 76: 942-948.
Berman-Frank, I., Erez, J., Kaplan, A. (1998) Growth of Dinoflagellates as Influenced by the Availability Of CO2 And Inorganic Carbon Uptake In A Lake Ecosystem. Can. J. Bot. 76: 1043-1051.
Tchernov, D., Hassidim, M., A. Vardi., Luz, B., Sukenik, A., Reinhold, L., Kaplan, A. (1998) Photosynthesizing marine microorganisms can constitute a source of CO2 rather than a sink. Can. J. Bot.76: 949-953
Erez, J., Bouevich, A., Kaplan, A. (1998) Carbon isotope fractionation by the freshwater cyanobacterium Synechococcus PCC 7942. Can. J. Bot.76: 1109-1118.
Kaplan, A., Ronen-Tarazi, M., Zer, H., Schwarz, R., Tchernov, D., Bonfil, D.J., Schatz, D., Vardi, A., Hassidim, M., Reinhold, L. (1998) The inorganic carbon-concentrating mechanism in cyanobacteria: induction and ecological significance. Can J Bot 76: 917-924.
Gabay, C., Lieman-Hurwitz, J., Hassidim, M., Ronen-Tarazi, M., Kaplan, A. (1998) Modification of topA in Synechococcus sp. PCC 7942 resulted in mutants capable of growing under low but not high concentration of CO2. FEMS Microbiol. Lett. 159: 343-347.
Ronen-Tarazi, M., Shinder V., Kaplan, A. (1998) A mutant of Synechococcus PCC 7942 impaired in HCO3- uptake. FEMS Microbiol. Lett. 159: 317-324.
Tchernov, D., Hassidim, M., Luz, B., Sukenik, A., Reinhold, L., Kaplan, A. (1997) Sustained net CO2 evolution during photosynthesis by marine microorganisms. Current Biology 7: 723-728.
Sukenik, A., Tchernov, D., Huerta, E., Lubian, L.M. Kaplan, A., Livne, A. (1997) Uptake, efflux and photosynthetic utilization of inorganic carbon by the marine eustigmatophyte Nannochloropsis sp. J Phycol 33: 969-974
Hassidim, M. Keren, N., Ohad, I., Reinhold, L., Kaplan, A. (1997) Acclimation of Synechococcus strain WH7803 to the ambient co2 concentration and to elevated light intensity. J Phycol 33: 811-817.
Ronen-Tarazi, M., Bonfil, MJ., Lieman-Hurwitz, J., Kaplan, A. (1995) Cyanobacterial mutants impaired in bicarbonate uptake isolated with the aid of an inactivation library. Maties P (ed) Advances in Photsynthesis Vol V, pp 623-626 Kluwer Acad. Pub Dordrecht
Ronen-Tarazi, M., Lieman-Hurwitz, M., Bonfil, D.J., Shinder, V., Kaplan , A. (1996) Cyanobacterial mutants defective in HCO3- uptake. In: Microbial growth on Ci compounds M.E Lidstrom &F. R. Tabita (ed) pp 49-55 Kluwer Academic Pub Dordrecht
Fridlyand, L., Kaplan, A., Reinhold, L. (1996) Quantitative evaluation of the role of a putative CO2-scavenging entity in the cyanobacterial CO2-concentrating mechanism. BioSystems 37: 229-238.
Berman-Frank, I., A. Kaplan, T. Zohary and Z. Dubinsky (1995) Carbonic anhydrase activity in the bloom-forming dinoflagellate Peridinium gatunense. J Phycol 31: 906-913
Schwarz R., L. Reinhold, A. Kaplan (1995) Low activation state of ribulose 1,5-bisphosphate carboxylase/oxygenase in carboxysome-defective Synechococcus mutants. Plant Physiol 108: 183-190.
Ronen-Tarazi, M., Schwarz, R., Bouevitch, A., Lieman-Hurwitz, J., Erez J. and Kaplan, A. (1995) Response of Photosynthetic Microorganisms to Changing Ambient Concentration of CO2. In Joint, I. (ed) Molecular Ecology of Aquatic Microbes. NATO ASI series Vol G38 pp 323-334, Springer-Verlag, Berlin.
Ronen-Tarazi, M., Lieman-Hurwitz, J., Gabay, C., Orus, M. and Kaplan, A. (1995). The genomic region of rbcLS in Synechococcus sp. strain PCC7942 contains genes involved in the ability to grow under low CO2 concentration and in chlorophyll biosynthesis. Plant Physiol 108: 1461-1469.
Schwarz, R., Lieman-Hurwitz, J., Ronen-Tarazi, M., Gabai, C., Hassidim, M., Reinhold L. and Kaplan, A. (1994) The Fluxes of Inorganic Carbon and CO2-Dependent Genes Involved in the Cyanobacterial Inorganic Carbon-Concentrating Mechanism: A View on Some of the Open Questions. In Stal, L.J and Caumette P (eds) Microbial Mats: Structure, development and environmental significance. Vol G 35 pp 299-304, Springer-Verlag, Berlin.
Marco E., I. Martinez, M. Ronen-Tarazi, M..I.Orus, A. Kaplan (1994) Inactivation of ccmO in Synechococcus sp. strain PCC 7942 results in a mutant requiring high level of CO2. App Environm. Microbiol 60: 1018-1020.
Kaplan, A., Schwarz, R., Lieman-Hurwitz, J., Ronen-Tarazi, M.., Reinhold, L. (1994) Physiological and Molecular Studies on the Response of Cyanobacteria to Changes in the Ambient Inorganic Carbon Concentration. In: Bryant, D. (ed.) The Molecular Biology of the Cyanobacteria, Kluwer Academic Pub., Dordrecht, The Netherlands pp. 469-485.
Schwarz, R., Lieman-Hurwitz, J., Marco, E., Ronen-Tarazi, M., Ohad, N., Hassidim, M., Gabai, C. and Kaplan, A. (1993) Ecological implications of the CO2-concentrating mechanism of cyanobacteria. In Guerrero, R. and Pedros-Alio C. (eds) Trends in microbial ecology. pp 92-97 Spanish Society of Microbiology.
Schwarz, R., Lieman-Hurwitz, J., Marco, E., Ronen-Tarazi, M., Ohad, N., Hassidim, M., Gabay, C., Reinhold, L., Kaplan, A., (1993) The CO2- concentrating mechanism of cyanobacteria: elucidation with the aid of high-CO2-requiring mutants. In: Murata N (ed.) Research in Photosynthesis. Kluwer Academic Pub., Vol III: 437-440
Marco, M., Ohad, N., Schwarz, R., Lieman-Hurwitz, J., Gabay, C., Kaplan, A. (1993) High CO2 concentration alleviates the block in photosynthetic electron transport in an ndhB-inactivated mutant of Synechococcus sp. PCC 7942. Plant Physiol 101: 1047-1053.
Schwarz, R., Lieman-Hurwitz, J., Hassidim, M., Kaplan, A. (1992) Phenotypic complementation of high-CO2-requiring mutants of the cyanobacterium Synechococcus sp. PCC 7942 by inosine 5'- monophosphate. Plant Physiol 100: 1987-1993.
Hassidim, M., Schwarz, R., Lieman-Hurwitz, J., Marco, E., Tarazi-Ronen, M., Kaplan, A. (1992) A cyanobacterial gene encoding peptidyl-prolyl cis-trans isomerase. Plant Physiol 100: 1982-1986.
Kaplan, A., Schwarz, R., Lieman-Hurwitz, J., Reinhold, L. (1991) Physiological and molecular aspects of the inorganic carbon concentrating mechanism in cyanobacteria. Plant Physiol 97: 851-855.
Reinhold, L., Kosloff, R., Kaplan, A. (1991) A model for inorganic carbon fluxes and photosynthesis in cyanobacterial carboxysomes. In: Proceedings of The Second International symposium on Inorganic Carbon Uptake by Aquatic Photosynthetic Organisms. Colman B. (ed.) Can J Bot 69: 984-988.
Lieman-Hurwitz J., R Schwarz, F Martinez, Z Maor, L Reinhold, A Kaplan 1991 Molecular analysis of high-CO2 requiring mutants indicates that genes in the region of rbc are involved in the ability of cyanobacteria to grow under low CO2. In: Proceedings of the Second International symposium on Inorganic Carbon Uptake by Aquatic Photosynthetic Organisms. Colman B. (ed.) Can J Bot 69: 945-950.
Kaplan, A., Schwarz, R., Ariel, R., and Reinhold, L. (1990). The CO2 concentrating system in cyanobacteria: perspectives and prospects. In: Kanai R, Katoh S, Miyachi S, eds, Regulation of Photosynthetic Processes. Botanical Magazine, Tokyo Special issue 2: 53-72.
Kaplan, A. (1990). Analysis of high-CO2-requiring mutants indicates a central role for the 5' flanking region of rbc and for the carboxysomes in cyanobacterial photosynthesis. Can J Bot 68: 1303-1310.
Friedberg, D., Kaplan, A., Ariel, R., Kessel, M. and Seijffers, J. (1989). The 5' flanking region of the gene encoding the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase is crucial for growth of the cyanobacterium Synechococcus PCC7942 in air level of CO2. J Bacteriol 171: 6069-6076.
Kuile, B. Ter., Kaplan, A. and Lee, J.J. (1990). Uptake of inorganic carbon by Fragilaria shiloi, symbiont of the foraminifer Amphistegina lobifera. Symbiosis 6: 225-236.
Friedberg, D., Kaplan, A., Ariel, R., Schwarz, R., Sadovnick, E., Kessel, M. and Seijffers, J. (1989). Mutations in the 5' flanking region of rbcL inhibit the growth of Synechococcus PCC7942 in air-level of CO2 and alter the carboxysome structure. Current research in photosynthesis M. Baltscheffsky (ed) Kluwar Academic Pub Vol IV 18.463-466.
Reinhold, L., Zviman, M. and Kaplan, A. (1989). A Quantitative model for inorganic carbon fluxes and photosynthesis in cyanobacteria. Plant Physiol and Biochem 27: 945-954.
Kaplan, A., Lerner, M. and Scherer, S. (1989). The nature of the light induced H+ efflux and Na+ uptake in cyanobacteria. Plant Physiol 89: 1220-1225.
Kaplan, A., Friedberg, D., Schwarz, R., Ariel, R., Seijffers, J. and Reinhold, L. (1989). The "CO2 concentrating mechanism" of cyanobacteria: Physiological, molecular and theoretical studies. In: W. R. Briggs (ed) Photosynthesis. Alan R. Liss Inc. NY pp 243-255.
Kaplan, A., Marcus, Y. and Reinhold, L. (1988). The CO2 concentrating mechanism of cyanobacteria. In: L Packer, A Glazer (eds) Methods in Enzymology 167: 534-539.
Kaplan A, Marcus Y, Reinhold L (1988) Inorganic carbon uptake by cyanobacteria. In L Packer, AN Glazer, eds, Methods in Enzymology, Vol 167, Academic Press, New York, pp 534-539
Schwarz, R., Friedberg, D. and Kaplan, A. (1988). Is there a role for the 42 kilodalton polypeptide in inorganic carbon uptake by cyanobacteria?. Plant Physiol 88: 284-288.
Abe, T., Tsuzuki, M., Kaplan, A. and Miyachi, S. (1987) Transport and fixation of inorganic carbon during photosynthesis in the cells of Anabaena grown under ordinary air. II. Effect of sodium concentration during growth on the induction of active transport system for IC. Plant Cell Physiol 28 : 671-677.
Ogawa, T., Omata, T., Marcus, Y. and Kaplan, A. (1987). Inhibition of inorganic carbon transport by oxygen in a high CO2 requiring mutant (E1) of Anacystis nidulans R2. Biochem Biophys Acta 893: 219-224.
Ogawa, T. and Kaplan, A. (1987). The stoichiometry between CO2 and H+ fluxes involved in the transport of inorganic carbon in cyanobacteria. Plant Physiol 83 : 888-891.
Omata, T., Ogawa, T., Marcus, Y., Friedberg, D. and Kaplan, A. (1987). Adaptation to low CO2 level in a mutant of Anacystis nidulans R2 which require high CO2 for growth. Plant Physiol 83: 892-894.
Kaplan, A., Zenvirth, D., Marcus, Y., Omata, T. and Ogawa, T. (1987). Energization and activation of inorganic carbon uptake by light in cyanobacteria. Plant Physiol 84 : 210-213
Ogawa, T., Kaplan, A. (1987). A model for inorganic carbon accumulation in cyanobacteria. see no 31 pp 6.297-300.
Kaplan, A., Marcus, Y., Zenvirth, D., Omata, T., Reinhold, L. and Ogawa, T. (1987). The mechanism of inorganic carbon uptake by cyanobacteria : Energization and activation by light.see no 31 pp 6.301-307.
Reinhold, L., Zviman, M. and Kaplan, A. (1987). Inorganic carbon fluxes and photosynthesis in cyanobacteria- A quantitative model. in Progress in photosynthesis research Biggins j (ed) Martinus Nijhoff Pub Vol 4: 6.289-296.
Marcus, Y., Schwarz, R., Friedberg, D. and Kaplan, A. (1986). High CO2 requiring mutant of Anacystis nidulans R2. Plant Physiol 82: 610-612.
Marcus, Y., Schuster, G., Michaels, A. and Kaplan, A. (1986). Adaptation to CO2 level and changes in the phosphorylation of thylakoid proteins during the cell cycle of Chlamydomonas reinhardtii. Plant Physiol 80: 604-607.
Zenvirth, D., Volokita, M. and Kaplan, A. (1985). Photosynthesis and inorganic carbon accumulation in the acidophilic alga Cyanidioschyzon merolae. Plant Physiol 77: 237-239.
Kaplan, A. (1985). Adaptation to CO2 levels: induction and the mechanism for inorganic carbon uptake. In: W. J. Lucas, J. A. Berry, (eds.), Inorganic Carbon Uptake by Aquatic Photosynthetic Organisms. ASPP, pp. 325-338.
Reinhold, L. and Kaplan, A. (1984). Membrane transport of sugars and amino acids. Ann Rev Plant Physiol Plant Mol Biol 5: 45-83.
Reinhold, L., Volokita, M., Zenvirth, D. and Kaplan, A. (1984). Is HCO3- transport in Anabaena a Na+-symport? Plant Physiol 76: 1090-1092.
Kaplan, A., Volokita, M., Zenvirth, D. and Reinhold, L. (1984). An essential role for sodium in the bicarbonate transporting system of the cyanobacterium Anabaena variabilis. FEBS Lett 176: 166-168.
Volokita, M., Zenvirth, D., Kaplan, A. and Reinhold, L. (1984). Nature of the inorganic carbon species actively taken up by the cyanobacterium Anabaena variabilis. Plant Physiol 76: 599-602.
Zenvirth, D. and Kaplan, A. (1984). Photosynthesis and inorganic carbon uptake by spheroplasts isolated from the cyanobacterium Anabaena variabilis. J Gen Microbiol 130: 1995-1997.
Marcus, Y., Volokita, M. and Kaplan, A. (1984). The location of the transporting system for inorganic carbon and the nature of the form translocated in Chlamydomonas reinhardtii. J Exp Bot 35: 1136-1144.
Zenvirth, D., Volokita, M. and Kaplan, A. (1984). Evidence against H+-HCO3- symport as the mechanism for HCO3- transport in the cyanobacterium Anabaena variabilis. J Membrane Biol 79: 271-274.
Volokita, M., Kaplan, A. and Reinhold, L. (1983). Nature of the rate limiting step in the supply of inorganic carbon for photosynthesis in isolated Asparagus mesophyll cells. Plant Physiol 72: 886-890.
Marcus, Y., Harel, E. and Kaplan, A. (1983). Adaptation of the cyanobacterium Anabaena variabilis to low CO2 concentration in their environment. Plant Physiol 71: 208-210.
Marcus, Y., Zenvirth, D., Harel, E. and Kaplan, A. (1982). Induction of HCO3- transporting capability and high photosynthetic affinity to inorganic carbon by low concentration of CO2 in Anabaena variabilis. Plant Physiol 69: 1008-1012.
Kaplan, A., Zenvirth, D., Reinhold, L. and Berry, J. A. (1982). Involvement of a primary electrogenic pump in the mechanism for HCO3- uptake by the cyanobacterium Anabaena variabilis. Plant Physiol 69: 978-982.
Zenvirth, D. and Kaplan, A. (1981). Uptake and efflux of inorganic carbon in Dunaliella salina. Planta 152: 8-12.
Kaplan, A. (1981). Photoinhibition in Spirulina platensis: Response of photosynthesis and HCO3- uptake capability to CO2 depleted conditions. J Exp Bot 32: 669-677.
Kaplan, A. and Schreiber, U. (1981). Light induced proton gradient formation in intact cells of Dunaliella salina. Plant Physiol 68: 236-239.
Volokita, M., Kaplan, A. and Reinhold, L. (1981). Evidence for mediated HCO3- transport in isolated pea mesophyll protoplasts. Plant Physiol 67: 1119-1123.
Kaplan, A. (1981). Photosynthetic response to alkaline pH in Anabaena variabilis. Plant Physiol 67: 201-204.
Kaplan, A. and Berry, J. A. (1981). Glycolate excretion and the O2/CO2 net exchange ratio during photosynthesis in Chlamydomonas reinhardtii. Plant Physiol 67: 229-232.
Badger, M. R., Kaplan, A. and Berry, J. A. (1980). The internal inorganic carbon pool of Chlamydomonas reinhardtii: Evidence for a CO2 concentrating mechanism. Plant Physiol 66: 407-413.
Kaplan, A., Badger, M. R. and Berry, J. A. (1980). Photosynthesis and the intracellular inorganic carbon pool in the blue-green alga Anabaena variabilis: Response to external CO2 concentration. Planta 149: 219-226.
Kaplan, A., Schreiber, U. and Avron, M. (1980). Salt induced metabolic changes in Dunaliella salina. Plant Physiol 65: 810-813.
Kaplan, A. and Bjorkman, O. (1980). Ratio of CO2 uptake to O2 evolution during photosynthesis in higher plants. Z. Pflanzenphysiol 96: 185-188.
Kaplan, A., Gale, J. and Poljakoff-Mayber, A. (1977). Effect of O2 and CO2 concentrations on gross dark CO2 fixation and dark respiration in a CAM plant Bryophyllum diagremontianum. Aust J Plant Physiol 4: 745-752.
Kaplan, A. and Gale, J. (1975). Separation of respiration from dark fixation of carbon dioxide in CAM plants. Isr J Bot 24: 59-60.
Kaplan, A., Gale, J. and Poljakoff-Mayber, A. (1976). Resolution of net dark fixation of carbon dioxide into its respiration and gross fixation components in Bryophyllum diagremontianum. J Exp Bot 27: 220-230.
Kaplan, A., Gale, J. and Poljakoff-Mayber, A. (1976). Simultaneous measurement of oxygen, carbon dioxide and water vapour exchange in intact plants. J Exp Bot 27: 214-219.
Gale, J., Kaplan, A. and Tako, T. (1975). Systematic errors in measurement of transpiration and photosynthesis by infrared gas analysis with varying Oxygen:Nitrogen ratios in the background gas. J Exp Bot 26: 702-704.
Kaplan, A. and Gale, J. (1974). Modification of the pressure-bomb technique for measurement of osmotic potential in Halophytes. J Exp Bot 25: 663-668.
Kaplan, A. and Gale, J. (1972). Effect of sodium chloride salinity on the water balance of Atriplex halimus. Aust J Biol Sci 25: 895-903.