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Version 3.18
Publication Type J
Authors Pyankov, VI; Ziegler, H; Akhani, H; Deigele, C; Luttge, U
Author Full Name Pyankov, Vladimir I.; Ziegler, Hubert; Akhani, Hossein; Deigele, Claudia; Luettge, Ulrich
Title European plants with C-4 photosynthesis: geographical and taxonomic distribution and relations to climate parameters
Language English
Document Type Article
Author Keywords Amaranthaceae; aridity; carbon isotope ratios; Chenopodiaceae; Cyperaceae; phytogeography; Poaceae
Abstract A survey of C-4 plants in Europe was performed with 216 species based on information in the literature and new studies. C-4 species were found in 10 families: the eudicots Amaranthaceae, Chenopodiaceae, Euphorbiaceae, Molluginaceae, Nyctaginaceae, Polygonaceae, Portulacaceae and Zygophyllaceae and the monocots Cyperaceae and Poaceae. The majority of the C-4 species belong to four families, Amaranthaceae (23), Chenopodiaceae (65), Cyperaceae (27) and Poaceae (88). In central and southern Europe, the abundance of native C-4 plants varied between 44 and 88% of total C-4 plants occurring, the rest being invasive C-4 species. The occurrence of total C-4 species, C-4 monocots and C-4 Chenopodiaceae was assessed for five major phyto-geographical regions of Europe (north-west, north-east, central, south-west, and south-east). The abundance of C-4 plants of total C-4 dicots, C-4 Chenopodiaceae, total C-4 monocots, C-4 Poaceae and C-4 Cyperaceae was related to the climatic variables of annual mean daily temperature, annual precipitation and DeMartonne's aridity index. The abundance of total C-4 plants decreases with increasing temperature and expression of aridity (decreasing aridity index) and is not correlated with precipitation. The abundance of total C-4 dicots and C-4 Chenopodiaceae is correlated with precipitation and aridity but not temperature, whereas the abundance of total C-4 monocots, C-4 Poaceae and C-4 Cyperaceae is correlated with temperature and aridity but not precipitation. (C) 2010 The Linnean Society of London, Botanical Journal of the Linnean Society, 2010, 163, 283-304.
Author Address [Luettge, Ulrich] Tech Univ Darmstadt, Inst Bot, D-64278 Darmstadt, Germany; [Pyankov, Vladimir I.] Ural State Univ, Dept Plant Physiol, Ekaterinburg 620083, Russia; [Ziegler, Hubert; Deigele, Claudia] Bayer Akad Wissensch, Kommiss Okol, D-80539 Munich, Germany; [Akhani, Hossein] Univ Tehran, Coll Sci, Sch Biol, Dept Plant Sci, Tehran, Iran
Reprint Address Luttge, U (reprint author), Tech Univ Darmstadt, Inst Bot, Schnittspahnstr 3-5, D-64278 Darmstadt, Germany.
E-mail Address luettge@bio.tu-darmstadt.de
Funding Agency and Grant Number Deutsche Forschungsgemeinschaft (DFG); EU [ICA2-1999-10110]
Funding Text U.L., H.A and C.D. dedicate this publication to the memory of their late colleagues and friends Vladimir Pyankov and Hubert Ziegler. V. Pyankov devoted a very large amount of his time and dedication to collecting the data and working out the various relationships described and discussed here. He died at the age of 48 in January 2002. H. Ziegler directed the investigation and worked on the text of the manuscript still in his last days before his death, when he passed away at the age of almost 85 in April 2009. The work was performed with financial support from the Deutsche Forschungsgemeinschaft (DFG) which also allowed V.P. to conduct studies at the Technical University of Munich, and the EU-programme INCO-Copernicus-2, project number ICA2-1999-10110, Gobi Desertification (V.P.). Many of the carbon isotope analyses were performed at the former Institute for Hydrology of the GSF-Centre for Environment and Health, OberschleiBheim near Munich, and great thanks are due to Drs W. Stichler and P. Trimborn.
Cited References AKHANI H, 2006, SABKHA ECOSYSTEMS, V2, P71; Akhani H, 1997, PLANT SYST EVOL, V206, P187, DOI 10.1007/BF00987948; Akhani H, 2007, INT J PLANT SCI, V168, P931, DOI 10.1086/518263; Akhani H., 2007, NOVA HEDWIGIA S, V131, P265; Akhani H, 2002, PHYTOCOENOLOGIA, V32, P455, DOI 10.1127/0340-269X/2002/0032-0455; Akhani H, 2009, PHOTOSYNTH RES, V99, P23, DOI 10.1007/s11120-008-9376-0; Akhani H, 2005, SYST BOT, V30, P290, DOI 10.1600/0363644054223684; Bremer B, 2003, BOT J LINN SOC, V141, P399; Bremer B, 2009, BOT J LINN SOC, V161, P105; BATANOUNY KH, 1991, OECOLOGIA, V87, P565, DOI 10.1007/BF00320421; BATANOUNY KH, 1988, OECOLOGIA, V75, P539, DOI 10.1007/BF00776418; BERRY JA, 1993, CARNEGIE I YB, V92, P66; BLACK CC, 1973, ANNU REV PLANT PHYS, V24, P253, DOI 10.1146/annurev.pp.24.060173.001345; BLACK C. C., 1971, Advances in Ecological Research, V7, P87, DOI 10.1016/S0065-2504(08)60203-2; Bruhl Jeremy J., 2007, Aliso, V23, P99; Carraro L., 1999, Plant Biosystems, V133, P55, DOI 10.1080/11263509909381532; COLLINS RP, 1985, VEGETATIO, V64, P121; de Martonne E, 1926, CR HEBD ACAD SCI, V182, P1395; de Martonne E, 1926, METEREOLOGIE, V2, P449; DOLINER LH, 1979, OECOLOGIA, V38, P23, DOI 10.1007/BF00347821; EDER A, 1979, FLORA, V168, P227; Edwards GE, 2004, ANNU REV PLANT BIOL, V55, P173, DOI 10.1146/annurev.arplant.55.031903.141725; Ehleringer JR, 1997, OECOLOGIA, V112, P285, DOI 10.1007/s004420050311; EHLERINGER JR, 1993, ANNU REV ECOL SYST, V24, P411, DOI 10.1146/annurev.es.24.110193.002211; ELLIS RP, 1980, S AFR J SCI, V76, P307; FARQUHAR GD, 1989, ANNU REV PLANT PHYS, V40, P503, DOI 10.1146/annurev.arplant.40.1.503; FARQUHAR GD, 1989, ECOL STUD, V68, P21; Funk JL, 2008, J ECOL, V96, P1162, DOI 10.1111/j.1365-2745.2008.01435.x; Gamaley Y. V., 1985, BOT ZH, V70, P1302; GAMALEY YV, 1972, BOT ZH, V77, P2; Greuter W., 1984, MED CHECKLIST, V1; GUEHL JM, 2004, ECOLOGY MANAGEMENT N, P75; GUTIERRE.M, 1974, PLANTA, V119, P279, DOI 10.1007/BF00388331; HATTERSLEY HA, 1992, GRASS EVOLUTION DOME, P38; Hattersley P. W., 1987, GRASS SYSTEMATICS EV, P49; HATTERSLEY PW, 1983, OECOLOGIA, V57, P113, DOI 10.1007/BF00379569; HESLA BI, 1982, PHOTOSYNTHETICA, V16, P196; KADEREIT JW, 2008, EVOLUTION SYSTEMATIK, P557; Kalapos T, 1997, PHOTOSYNTHETICA, V33, P227, DOI 10.1023/A:1022112329990; LI MR, 1993, PHOTOSYNTHETICA, V28, P119; Li MR, 1999, CAN J BOT, V77, P209; Luttge U, 2002, J EXP BOT, V53, P2131, DOI 10.1093/jxb/erf081; Maricle BR, 2009, NEW PHYTOL, V184, P216, DOI 10.1111/j.1469-8137.2009.02903.x; MATEU AI, 1992, PHOTOSYNTHETICA, V26, P323; MATEUANDRES I, 1993, PHOTOSYNTHETICA, V29, P583; Muhaidat R, 2007, AM J BOT, V94, P362, DOI 10.3732/ajb.94.3.362; Muller M. J., 1982, SELECTED CLIMATE DAT; Okuda T., 1990, Japanese Journal of Ecology, V40, P91; Pyankov VI, 1997, AM J BOT, V84, P597, DOI 10.2307/2445895; Park J, 2009, PLANTA, V229, P369, DOI 10.1007/s00425-008-0836-8; Pyankov VI, 2000, PHOTOSYNTH RES, V63, P69, DOI 10.1023/A:1006377708156; PYANKOV VI, 1986, DEVELOPMENT, V2, P45; PYANKOV VI, 1992, SOV PLANT PHYSIOL+, V39, P411; PYANKOV VI, 1993, SCIENCE, V35, P38; PYANKOV VI, 1989, SOV PLANT PHYSIOL+, V36, P178; PYANKOV VI, 1999, J OF PLANT PHYSL, V46, P452; PYANKOV VI, 1992, SOV J ECOL+, V23, P144; Pyankov VI, 2000, OECOLOGIA, V123, P15, DOI 10.1007/s004420050985; Pyankov VI, 2001, AM J BOT, V88, P1189, DOI 10.2307/3558329; PYANKOV VI, 1992, J OF PLANT PHYSL, V39, P421; Pyankov V.L., 1993, RUSS J PLANT PHYSL, V40, P443; REDMANN RE, 1995, PHOTOSYNTHETICA, V31, P251; SAGE R, 1999, PLANT BIOLOGY, V4, P551; SAGE RF, 2000, METABOLISM, V4, P497; Sage RF, 2007, AM J BOT, V94, P1992, DOI 10.3732/ajb.94.12.1992; Sage RF, 2004, NEW PHYTOL, V161, P341, DOI 10.1111/j.1469-8137.2004.00974.x; Schulze ED, 1996, OECOLOGIA, V106, P352, DOI 10.1007/BF00334563; SHOMERILAN A, 1981, OECOLOGIA, V48, P244, DOI 10.1007/BF00347970; Sikolia S., 2008, International Journal of Botany, V4, P421; SONNENBERG BJ, 1992, S AFR J BOT, V58, P297; STOWE LG, 1978, AM NAT, V112, P609, DOI 10.1086/283301; TAKEDA T, 1985, BOT MAG TOKYO, V98, P393, DOI 10.1007/BF02488504; TEERI JA, 1980, OECOLOGIA, V47, P307, DOI 10.1007/BF00398522; TEERI JA, 1976, OECOLOGIA, V23, P1; TIESZEN LL, 1979, OECOLOGIA, V37, P338; Toderich K., 2007, CLIMATE CHANGE TERRE, P33, DOI 10.1201/9780203932698.ch3; Tutin T. G., 1964, FLORA EUROPAEA, V1-5; TUTIN T. G., 1993, FLORA EUROPAEA, V1; UENO O, 1992, OECOLOGIA, V89, P195; Ueno O, 1998, J EXP BOT, V49, P1637, DOI 10.1093/jexbot/49.327.1637; UENO O, 1988, BOT MAG TOKYO, V98, P393; UENO O, 1986, PHOTOSYNTHETICA, V20, P111; Vogel J.C., 1977, MADOQUA, V10, P75; VOGEL JC, 1978, S AFR J SCI, V74, P209; Voznesenskaya EV, 2005, PLANT SCI, V168, P731, DOI 10.1016/j.plantsci.2004.10.005; Voznesenskaya EV, 2005, AM J BOT, V92, P1784, DOI 10.3732/ajb.92.11.1784; Voznesenskaya EV, 2001, NATURE, V414, P543, DOI 10.1038/35107073; Voznesenskaya EV, 2007, PLANT BIOLOGY, V9, P745, DOI 10.1055/s-2007-965579; WINTER K, 1981, OECOLOGIA, V48, P100, DOI 10.1007/BF00346994; ZIEGLER H, 1981, OECOLOGIA, V48, P93, DOI 10.1007/BF00346993; ZIEGLER H, 1994, PROGR BOT, V56, P1; Ziegler H., 2000, HOPPEA, V61, P43
Cited Reference Count 92
Times Cited 17
Total Times Cited Count (WoS, BCI, and CSCD) 19
Publisher City MALDEN
Publisher Address COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA
ISSN 0024-4074
29-Character Source Abbreviation BOT J LINN SOC
ISO Source Abbreviation Bot. J. Linnean Soc.
Publication Date JUL
Year Published 2010
Volume 163
Issue 3
Beginning Page 283
Ending Page 304
Page Count 22
Web of Science Category Plant Sciences
Subject Category Plant Sciences
Document Delivery Number 626RL
Unique Article Identifier WOS:000279984500001
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