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r= New ; a ~ Phy tologist March 2004 Vol. 161 No. 3 Author index Abbott, R.J. & Comes, H.P Evolution in the Arctic: a Booth, R.E. see Phoenix, G.K phylogeographic analysis of the circumarctic plant, Saxifraga Bouck, A.C. see Arnold, M.L. oppositifolia (Purple saxifrage), 211 Brand, J.H. see Sundaram, S. Adriaensen, K., van der Lelie, D., Van Laere, A., Vangronsveld, J. Brechenmacher, L. see Sanchez, L. & Colpaert, J.V. A zinc-adapted fungus protects pines from zinc Brown, A.H.D. see Doyle, J.J. stress, 549 Ainouche, M.L., Baumel, A., Salmon, A. & Yannic, G. Hybridization, Campbell, D.R. Natural selection in Jpomopsis hybrid zones: polyploidy and speciation in Spartina (Poaceae), 165 implications tor ecological speciation, 83 Albrechtova, M. see Pechackova, S. ‘ann, M.J. Signalling through cyclic nucleotide monophosphates Alkan, N., Gadkar, V., Coburn, J., Yarden, O. & Kapulnik, Y. in cyanobacteria, 23 Quantification of the arbuscular mycorrhizal fungus Glomus varne-Cavagnaro, V.L. see Cavagnaro, T-R. intraradices in host tissue using real-time polymerase chain vavagnaro, I.R. see Ezawa, T. reaction, 877 vavagnaro, T.R., Smith, RA., Hay, G., Carne-Cavagnaro, V.L. & Allara, P. see Schubert, A. Smith, S.E. Inoculum type does not effect overall resistance of Altenbach, D. see Nagaraj, V.J. an arbuscular mycorrhiza-defective tomato mutant to colonisation Anten, N.P.R., Hirose, T., Onoda, Y., Kinugasa, T., Kim, H.Y., but inoculation does change competitive interactions with wild- Okada, M. & Kobayashi, K. Elevated CO, and nitrogen availability type tomato, 485 have interactive effects on canopy carbon gain in rice, 459 ‘edergreen, N. & Madsen, T.V. Light regulation of root and leaf A postolakos, P. ee ( salatis, B. NO, uptake and reduction in the floating macrophyte Lemna Arnold, M.L., Bouck, A.C. & Cornman, R.S. Verne Grant and minor, 449 Louisiana Irises: Is there anything new under the sun?, 143 “hao, J. see Dielen, V. Arora, R. see Marian, C.O. *hurch, S.A. see Rieseberg, L.H. Arroyo, |. SCE Pérez, R. oburn, J. see Alkan, N. Azmi, A. see Boiten, H ‘olpaert, J.V. see Adriaensen, K. ‘omas, P. see Pefiuelas, J. Bailey, D.J., Kleczkowski, A. & Gilligan, C.A. Epidemiological omes, H.P. see Abbott, R.]. dynamics and the efficiency of biological control of soil-borne ‘ornman, R.S. see Arnold, M.L. disease during consecutive epidemics in a controlled environment, Cronn, R. & Wendel, J.F Cryptic trysts, genomic mergers, and 569 plant speciation, 133 Baldan, B. see Zuppini, A. Batoko, H. see Dielen, \ Dahlgren, S. see Berglund, A.-B.N Batoux, M. see Sanchez, L. Dalmasso, M.C. see Garriz, A. Baumel, A. see Ainouche, M.L. van Dam, N.M., Witjes, L. & Svatos, A. Interactions between Belote, R Weltzin, ] I & Norby, R.J Response of an iboveground and belowground induction of glucosinolates in understory plant community to elevated [CO depends on two wild Brassica species, 801 differential responses of dominant invasive species and is Dawson, L.A., Thornton, B., Pratt, S.M. & Paterson, E. mediated by soil water availability, 827 Morphological and topological responses of roots to defoliation Béreau, M. see de Grandcourt, A. and nitrogen supply in Lolium perenne and Festuca ovina, 811 Berglund, A.-B.N., Dahlgren, S. & Westerbergh, A. Evidence for Debaud, J.-C. see Guidor, A. parallel evolution and _ site-specific selection of serpentine Debergh, P. S€¢ Boiten, H. tolerance in Cerastium alpinum during the colonization of Dent, K.C. see Stephen, J.R>. Scandinavia, 199 Dielen, V., Quinet, M., Chao, J., Batoko, H., Havelange, A. & Bodénés, C. see Petit, R.]. Kinet, J.-M. UNIFLORA, a pivotal gene that regulates floral Bohs, . 5€€ Igic, B. transition and meristem identity in tomato (Lycopersicon Boiten, H., Azmi, A., Dillen, W., de Schepper, S., Debergh, P., esculentum), 393 Gerats, T., Van Onckelen, H. & Prinsen, E. The Re-/ encoded Dillen, W. see Boiten, H. regeneration Capacity of tomato is not related to an altered Doyle, J.J., Doyle, J.L., Rauscher, J.T. & Brown, A.H.D. Diploid cytokinin homeostasis, 761 and polyploid reticulate evolution throughout the history of the Boller, [. see Nagaraj, V.J. perennial soybeans (Giycine subgenus Glycine), 121 Booth, R.E. S€€ Johnson, D. Doyle, J.L. see Doyle, J.J. New Phytologist (2004) 161: 887-890 www.newphytologist.org New 888 Author index Phytologist [ Jucousso \ ee Petit, R.] Grime, J.P. see Phoenix, G.K Dunham, S. see Kretzer, A.M Guehl, J.-M. see de Grandcourt, A Dunn, T.M. see Lynch, D.\ Guidot, A., Debaud, J.-C., Effosse, A. & Marmeisse, R. Below- ground distribution and persistence of an ectomycorrhizal Eftosse, A. see Guidot, A fungus 539 Epron, D. see de Grandcourt, A Guo Y SCE Zhao, ] Erickson, J. Stanosz, G.R., & Kruger, E.L. Photosynthetic consequences of Marssonina leaf spot differ between two poplar Hadincova, V. see Pechackova, S hybrids, 577 Haikié, E. see Oksanen, I Estiarte M ee Peniuelas, | Hanstein, $.M. & Felle, H.H. Nanoinfusion: an integrating tool Evans, D.| Aerenchyma formation, 35 to study elicitor perception and signal transduction in intact I 7AWa | Cavagnaro, T.R., Smith, S.E., Smith, EA. & Ohtomo, R leaves, 595 Rapid accumulation of polyphosphate in extraradical hyphae of Havelange, A. see Dielen,\ in arbuscular mycorrhizal fungus as revealed by histochemistry Hay, G. see Cavagnaro, T.R. ind 1 polyphosphate kinase/luciferase system, 38Q 7 Herben, 1 ee Pechackova, S$ Herrera, C.M. Distribution ecology of pollen tubes: fine-grained, varon, F. see Zuppini, A labile spatial mosaics in southern Spanish Lamiaceae, 473 H.H. see Hanstein, $.M Hiremath, S. see Sundaram, S$ ee Peftuelas, | Hirose, I. see Anten, N.P.R { W | ée¢ Stephen, J R Hobbie, E.A. & Werner, R.A. Intramolecular, compound-specific, ranceschi, V.R. see Mazen, A.M.A and bulk carbon isotope patterns in C, and C, plants: a review romm J ee Koziolek ( und synthesis, 371 Primary cell wall metabolism tracking the careers of wall Hodges, S.A., Fulton, M., Yang, J.Y. & Whittall, J.B. Verne Grant polymers in living plant cells, 641 ind evolutionary studies of Aquile gia, 113 ujiki D. & Kikuzawa, K Classifying i1erial stems of woody Hovenden, M.J. & Vander Schoor, ].K. Nature vs nurture in the plants by developmental stages using relative growth rate, 427 leaf morphology of Southern beech, Nothofagus cunninghamii Fujita K Ce Zhao | Nothofagaceae), 585 ulton, M. see Hodges, S.A Husband, B.C. & Sabara, H.A. Reproductive isolation between autotetraploids and their diploid progenitors in fireweed, €¢ Alkan N Chamerion angust folium (Onagraceae), 703 V. see Nagaraj, V.J Hymes, M.]. see Sundaram, S salatis, B. & Apostolakos, P. The role of the cytoskeleton in t morphogenesisand function of stomatal complexes, 613 Igic, B., Bohs, L. & Kohn, J.R. Historical inferenfrcome sth e self ; < irbaye, |. see de Grandcourt, A incompatibility locus, 9 \., Dalmasso, M.( Marina, M., Rivas, E.I1., Ruiz, O.A Pieckenstain, El Polyamine metabolism during the Johnson, D., Vandenkoornhuyse, P]J., Leake, [.R., Gilbert, L. germination of Sclerotinia sclerotiorum ascospores and _ its Booth, R.I Grime, J.P. Young, J.PW. & Read, D.J. Plant relwaitht hoist oinfenctio n, 847 communities affect arbuscular mycorrhizal fungal diversity and scratl | ee Boiten, H community composition in grassland microcosms, 503 S. see Sanchez, | ’earson, V. see Sanchez Kapulnik, Y. see Alkan, N Gilbert ee Johnson, D Karnosky, D.F. see Oksanen, I Gill gan A. see Bailey L.] Kephart, S. & Theiss, K Pollinator-mediated isolation in Givnish, T°]. see Patterson, T.B sympatric milkweeds (Asclepias): do floral morphology and Gottlieb, L.D. Rethinking classic examples of recent speciation in insect behavior influence species boundaries?, 265 plants | Kikuzawa, K. see Fujiki, D Grams, [.E.I SCE Koziolek ( Kim, H.Y Anten, N.PR de Grandcourt, A Epron, D Montpied P. Louisanna, I Kinet, J.-M. see Dielen, \ Béreau, M Garbaye, ]. & Guehl, J.-M Contrasting responses Kinugasa, [. see Anten, N.P.R to mycorrhizal inoculation and phosphorus availability in Kleczkowski, A. see Bailey, D.] seedlings of two tropical rainforest tree species, 865 Kobayashi, K. see Anten, N.PR Gregoire | G ee Richardson, A.D Kohn, J.R. see Igic, B Griffin, K.L. see Turnbull, M.H Kostadinova, S. see Morcuende, R Grime, J.P. see Johnson, D Kottke I. see Wubet I www.newphytologist.org © New Phytologist (2004) 161: 887-890 New Phytologist Author index 889 Koziolek, C., Grams, T.E.E., Schreiber, U., Matyssek, R. & Morcuende, R., Kostadinova, S., Pérez, P., Martin del Molino, I.M. Fromm, J. Iransient knockout of photosynthesis mediated by & Martinez-Carrasco, R. Nitrate is a negative signal for fructan electrical signals, 715 synthesis, and the fructosyltransferase-inducing trehalose inhibits Krahulec, E. see Pechackova, S. nitrogen and carbon assimilation in excised barley leaves, 749 Krebs, S.L. see Marian, C.4). Morjan, C.L. see Rieseberg, L.H. Kremer, A. see Petit, R.J. Morte, A. see Schubert, A. Kretzer, A.M., Dunham, S., Molina, R. & Spatafora, J.W. Murthy, R. see Turnbull, M.H. Microsatellite markers reveal the below ground distribution of genets in two species of Rhizopogon forming tuberculate Nagaraj, V.J., Altenbach, D., Galati, V., Liischer, M., Meyer, A.D., ectomycorrhizas on Douglas fir, 313 Boller, T. & Wiemken, A. Distinct regulation of sucrose: Kruger, E.L. see Erickson, J.E. sucrose-1-fructosyltransferase (1-SST) and sucrose: fructan-6- fructosyltransferase (6-SFT), the key enzymes of fructan synthesis Lai, Z. see Lexer, C. in barley leaves: 1-SST as the pacemaker, 735 atta, R.G. Gene flow, adaptive population divergence and Navazio, L. see Zuppini, A. comparative population structure across loci, 51 Norby, R.]. see Belote, R.T. eake, ].R. see Johnson, D. eake, J.R. see Phoenix, G.K Oberwinkler, F. see Wubet, T. ee, ].A. SCE Phoenix, G.K Ogaya, R. see Pefiuelas, J. an der Lelie, D. see Adriaensen, K. Ohtomo, R. see Ezawa,T . emanceau, P. see Sanchez, L. Okada, M. see Anten, N.PR evin, D.A. The ecological transition in speciation, 91 Oksanen, E., Hiaikié, E., Sober, J. & Karnosky, D.E Ozone exer, C., Lai, Z. & Rieseberg, L.H. Candidate gene polymorphisms induced H,O, accumulation in field-grown aspen and birch associated with salt tolerance in wild sunflower hybrids: is linked to foliar ultrastructureand peroxisomal activity, implications for the origin of Helianthus paradoxus, a diploid 9] hybrid species, 225 van Onckelen, H. see Boiten, H. Livingstone, K. & Rieseberg, L. Chromosomal evolution and Onoda, Y. see Anten, N.PR. speciation: a recombination-based approach, 107 [ lorens, I . SE Pefiuelas, J. Paterson, E. see Dawson, L.A. Lloret, F. S€€ Pefiuelas, |. Patterson, T.B. & Givnish, T.J. Geographic cohesion, chromosomal Louisanna, E see de Grandcourt, A evolution, parallel adaptive radiations, and consequent floral Liischer, M. see Nagaraj, V.J. adaptations in Calochortus (Calochortaceae): evidence from a Lynch, D.V. & Dunn, T.M. An introduction to plant cpDNA phylogeny, 253 sphingolipids and a review of recent advances in understanding Pechackova, S., Albrechtova, M., Hadincova, V., Krahulec, F & their metabolism and function, 677 Herben, T. Horizontal and vertical distribution of root absorption zones of four common grass species in a mountain grassland, Madsen, T.V. see Cedergreen, N. 303 Mares, M. see Wingler, A. Pefiuelas, J., Filella, I., Zhang, X., Llorens, L., Ogaya, R., Lloret, F, Marian, C.O., Krebs, S.L. & Arora, R. Dehydrin variability Comas, P., Estiarte, M. & Terradas, J. Complex spatiotemporal among rhododendron species: a 25-kDa dehydrin is conserved phenological shifts as a response to rainfall changes, 837 and associated with cold acclimation across diverse species, Pérez, P S€€ Morcuende, R. 2 Pérez, R., Vargas, P. & Arroyo, J. Convergent evolution of flower Mariani, P. see Zuppini, A. polymorphism in Narcissus (Amaryllidaceae), 235 Marina, M. see Garriz, A. Petit, R.J., Bodénés, C., Ducousso, A., Roussel, G. & Kremer, A. Marmeisse, R. see Guidot, A. Hybridization as a mechanism of invasion in oaks, 151 Martin del Molino, I.M. see Morcuende, R. Phoenix, G # Booth, R. ~o9 Leake, RR. Read, D.. Grime, LP & Martinez-Carrasco, R. see Morcuende, R. Lee, J.A. Simulated pollutant nitrogen deposition increases P Matyssek, R. see Koziolek, C. demand and enhances root-surface phosphatase activities of Mazen, A.M.A., Zhang, D. & Franceschi, V.R. Calcium oxalate three plant functional types in a calcareous grassland, 279 formation in Lemna minor. physiological and ultrastructural Pieckenstain, F.L. see Garriz, A. aspects of high capacity calcium sequestration, 435 Podila, G.K. see Sundaram, S. Meyer, A.D. see Nagaraj, V.J. Pourtau, N. see Wingler, A. Millioni, R. see Zuppini, A. Pratt, S.M. see Dawson, L.A. Molina, R. see Kretzer, A.M Prinsen, E. see Boiten, H. Monprpied, P. see de Grandcourt, A. Pritchard, H.W. see Steadman, K.]. New Phytologist (2004) 161: 887-890 www.newphytologist.org New 890 luthor index Phytologist Quick, W.P. see Thomas, P.W. Ras-interacting vesicular assembly protein gene from the Quinet, M. see Dielen, V. ectomycorrhizal fungus Laccaria bicolor, 529 Svatos, A. see van Dam, N.M Rauscher, J.T. see Doyle, J.] Read, D.J. see Johnson, D late, J.A. see Soltis, D.E. Read, D.]. see Phoenix, G.K Teketay, D. see Wubet, 7 Reeves III, ].B. see Richardson, A.D Terradas, |. see Pefiuelas, J Richardson, A.D., Reeves III, J.B. & Gregoire, T.G. Multivariate Theiss, K. see Kepharrt, S. unalyses of visible/near infrared (VIS/NIR) absorbance spectra Thomas, P.W., Woodward, F.1. & Quick, W.P. Systemic irradiance reveal underlying spectral differences among dried, ground signalling in tobacco, 193 needle samples from different growth environments, Thornton, B. see Dawson, L.A. Tissue, D.T. see Turnbull, M.H Rieseberg, L. see Livingstone, K van Tuinen, D. see Sanchez, | Lieseberg L.H. see Lexer, ¢ Turnbull, M.H., Tissue, D.T., Murthy, R., Wang, X., Sparrow, A.D. Rieseberg, L.H., Church, S.A. & Morjan, C.l Integration of & Griffin, K.L. Nocturnal warming increases photosynthesis at populations and differentiation of species, 59 elevated CO, partial pressure in Populusdeltoides, 819 E.I. see Garriz, A Roussel, G. see Petit R.] Van Laere, A. see Adriaensen, K Ruiz, O.A. see Garriz, A Vandenkoornhuyse, PJ. see Johnson, D. Vander Schoor, ].K. see Hovenden, M.]. Sabara, H.A. see Husband, B.¢ Vangronsveld, J see Adriaensen, K. Sage, R.E. The evolution of ¢ photosynthesis, 341 Vargas, P. S€€ Pérez R Sakai, K. see Zhao, | Salmon, A. see Ainouche, M.1 Wang, X. see Turnbull, M.H Sanchez, L., Weidmann, S Brechenmacher, | Batoux, M WeilS, M. see Wubet, 1 van luinen, D Lemanceau, P, Gianinazzi, $. & Gianinazzi Weidmann, S. see Sanchez, | P)e arson \ (Common gene expression in 1V4i.e.é/d ica¢go truncatula Weltzin, J.F. see Belote, R.7 roots in response to Pseudomonas fluorescens colonization Wendel, ].F. see Cronn, R mycorrhiza development and nodulation 5) Werner, R.A. see Hobbie, E.A de Schepper, S. see Boiten, H Westerbergh, A. see Berglund \.-B.N Schreiber, | ee Koziolek ( Whittall, ].B. see Hodges, S.A Scchhuulb ert \ Allara, P. M orte 4. Cl eavage of sucrose in Wiemken, A. see Nagaraj, V.] roots of soybean colonized by arbuscular Wingler, A., Marés, M. & Pourtau, N Spatial patterns and metabolic mycorrhizal fungus regulation of photosynthetic parameters during leaf senescence, 781 Smith Witjes, L. seevan Dam, N.M Smith ee Ezawa Woodward, El. see Thomas, PW Smith ee Cavagnaro, I.1 Wubet, T., WeifS, M., Kottke, | Teketay, D. & Oberwinkler, EF. Smith, S.E. see Ezawa, 1 Molecular diversity of arbuscular mycorrhizal fungi in Prunus Sober, J. seeO ksanen, I africana, an endangered medicinal tree species in dry Afromontane Soltis, D.E., Soltis, PS Advances in the study of forests of I thiopia 517 polyploidy since Pi Soltis, PS. see Soltis, D.1 Yang, J.Y. see Hodges, S.A Sparrow, A.D. see Turnbull, M.H Yannic, G. see Ainouche, M.| Spatatora |. W. see Kretzer, A.M Yarden, O. see Alkan, N Stanosz, G.R. see Erickson, J. Young, ].P.'W. see Johnson, D Steadman, K.J. & Pritchard, H.W. Germination of Aesculu hippocastanum seeds following cold-induced dormancy loss can Zhang, D. see Mazen, A.M.A be described in relation to a temperature-dependent reduction Zhang, X. see Pei uelas, J in base temperature (7 ) and thermal time, 415 Zhao, J., Guo, Y., Fujita, K. & Sakai, K. Involvement of cAMP Stephen, J.R Dent, K.C. & Finch-Savage, W.E. Moleculai signaling in elicitor-induced phytoalexin accumulation in responses of Prunus avium (wild cherry) embryonic axes to Cupressus lusitanica cell cultures, 723 temperatures affecting dormancy, 401 Zuppini, A., Baldan, B Millioni, R., Favaron, E, Navazio, L. & Sundaram, S., Brand, J.H., Hymes, M.]., Hiremath, S. & Mariani, P.) Chitosan induces Ca~*-mediated programmed cell Podila, G.K. Isolation and analysis of a symbiosis-regulated and death in soybean cells, 557 www.newphytologist.org © New Phytologist (2004) 161: 887-890 New Phytologist Keyword index 891 Keyword Index ot-difluoromethylornithine, 847 ( alochortus, 253 DNA, 17 abil, 401 cAMP, 723 DNA quantification, 539 abi3, 401 candidate gene approach, 225 DNA sequence, 339 aboveground—belowground interactions, canopy structure, 459 DNA sequences, 13 801 carbohydrate content, 819 DNA sequence databanks, 15 acclimatization, 449 carbohydrate metabolism, 735 DNA sequence databases, 17 acol, 401 carbohydrates, 495 dormancy, 415 actin filaments, 613 carbon concentration, 341 dry Afromontane forest, 517 action potential, 610 carbon dioxide, 791 dynamic system analysis, 595 adaptation, 199 Carex flacca, 279 adaptive radiation, 253 caspase 3-like, 557 eco-devo, 3 aerenchyma, 35 catalase, 791 ecology, ] 7 3 allocation, 449 cell wall, 641 ecological divergence, 91, 225 allopolyploidy, 165 ceramide, 677 ecological opportunity, 91 ultitude, 585 Cerastium, 199 ectomycorrhiza, 335, 539 ancestral State, chaparral, 21 ectomycorrhizal (ECM) fungi, 326 ancient DNA, : chilling, 415 ectomycorrhizal symbiosis, 549 apoplastic pI £3 chitosan, 557 ectomycorrhizas, 313, 529 apoptosis, 35 chlorophyll fluorescence imaging, 715, 781 efficiency, 865 Aquilegia, 113 chloroplast DNA, 151 eif3c, 401 Arabidopsis, 781 chloroplast sequences, 235 electrical signalling, 610 arbuscular mycorrhiza, 517, 877 chromosomal rearrangements, 107 electrical signals, 715 arbuscular mycorrhiza (AM), 503 cladistics, 11 elevated CC ),, 819 arbuscular mycorrhizal fungi, 387 Clarkia, 71 elevation, 291 arbuscular mycorrhizas, 485, 495 CAPun oe elicitor, 723 archeology, 339 CO, enrichment, 827 elicitor perception, 595 Arctic Hora, 211 coalescence, 51 endomycorrhiza, 335 Ast lepias, 265 cold acclimation, 773 environmental plasticity, 329 aspen (Populus tremuloides), 791 conifer foliage, 291 enzyme action and activity, 641 assortative mating, 703 consecutive epidemics, 569 enzymes, 371 asymmetric introgression, 151 consequent radiation, 253 Eperua falcata, 865 continuous cropping, 569 Ericaceae, 773 B-thujaplicin, 723 convergence, 253 Ethiopia, 517 balsam fir (Abies balsamea), 291 crystals, 435 ethylene, 723 barley (Hordeum vulgare), 595, 735, 749 Cupressus lusitanica, 723 evolution, 8 Bayesian phylogenetic analysis, 517 cyclohexylamine, 847 evolutionary convergence, 2: below-ground mycelium, 539 cytokinins, 761 beneficial fungi, 326 cytoplasmic capture, 151 F 51 Biogenic Volatile Organic Compounds cytoskeleton, 613 Festuca ovina, 811 (BVOC), 21 cytotypes, 612 fireweed (Chamerion angustifolium), 612 biological control, 569 Flaveria, 341 bottleneck, 97 Darwinism, 11 floating macrophyte, 449 Brassica spp, 801 defoliation, 811 Horal isolation, 113, 265 dehydrins, 773 floral syndromes, 253 plants, 371 Dicorynia guianensis, 865 floral transition, 393 C.-C, photosynthesis, 341 discriminant analysis, 291 flowering, 837 Ca, 715 disease assessment, 577 foliar physiognomy, 329 calcareous grassland, 279 disease dynamics, 569 free-air CO, enrichment (FACE), 459 calcium, 435, 55 diversification, 97, 113 fructan, 735, 749 California Floristic Province, 2 diversity, 503 fructosyltransferase, 749 © New Phytologist (2004) 161: 891-894 www.newphytologist.org New 892 Keyword index Phytologist fruiting, 837 individual variation, 473 luciferase, 387 fungal genets, 313 induced defences, 801 Lycopersicon esculentum, 485, 761 fungal material, 13 infiltration, 595 Lycopersicon esculentum (tomato), 393 inoculum dynamics, 569 gas exchange 577 inositolphosphorylceramide, 677 macroevolution, 341 GenBank, 15 insectivorous (‘motorized’) plants, 610 magnesium, 199 gene expression, 529, 855 intact leaf, 595 maize (Zea mays), 35 gene flow, 51, 59, 133 interaction range, 303 Manuscript Central, 3 genetics 173 intraspecific variation, 47 Marssonina brunnea, 577 genome evolution, 165 introgression, 59, 121, matrix protein, 435 genomics, 173 invasive species, 91, 827 mean crowding, 473 genotype, 585 invertase, 495, 735 Medicago truncatula, 855, 877 genotypic control, 329 in vitro culture, 877 Mediterranean, 235 geographic cohesion, 253 in vitro shoot organogenesis, 761 Mediterranean-type ecosystem, 21 geographic isolation, 703 ion flux, 723 membrane potential, 610 germination, 415 IP3, 610 membranes, 435 glacial refugia, 211 [pomopsis, 83 meristem identity, 393 global change, 459 irradiance, 193, 449 metabolic modeling, 371 global warming, 819 isotopic discrimination, 37 metachromasy, 387 Glomus coronatum, 485 ITS, 517 metal tolerance, 199 Glomus intraradices, 335, 877 methylglyoxal 4is-[guanyl hydrazone], 847 Glomus mosseae, 495, 855 jasmonic acid, 801 metrics, 3 glucosinolates, 801 microgametophyte competition, 473 glucosylceramide, 67 karyotype, 107 microsatellite markers, 313 glycanases, 641 karyotypic evolution, 107 microsensors, 595 Glycine max (soybean), 495 key innovation, 113 Microstegium vimineum, 827 Glycine subgenus Glycine (perennial Koeleria macrantha, 279 microtubules, 613 soybeans), 121 milkweed, 265 ( solgi system, 641 Laccaria baicolor , 326, Mimosa pudica, 715 (70. sypium, 133 Lamiaceae, 473 model, 459 GPI-anchor, 677 Lavandula latifolia, 47 molecular clock, 211 grafting, 393 Layia, 7\ molecular diversity, 517 graminan, 735 LbRAS-interacting Ap-180 like proteins, molecular signalling, 324 grass 811 529 monoterpenes, 21] greenup onset, 837 leaf area index, 459 morphogenesis, 613 growth, 865 leaf development, 193, 324 morphology, 811 leaf freezing tolerance, 773 morphometry, 235 H,O,, 791 leaf size, 585 multiple origins, 121 Hebeloma « ylindrosporum, 539 leaf senescence, 781 Mycorrhizal mutants, 485 hemicelluloses, 641 leaf spot, 577 heterostvly, 235 leaf-unfolding, 837 nanoinfusion, 324 horse chestnut (Aesculus hippocastanum Lemna minor, 435, 449 natural selection, 225 +15 Leontodon hispidus, 279 nested clade analysis, 211 human disturbance, 539 Lewontin—Krakauer test, 51 Net Ecosystem Exchange (NEE), 21 hybrid fitness, 83 light conditions, 393 2 nickel, 199 Hybrid poplar, 577 Lindera umbellata, 427 nitrate, 749 hybrid speciation, 225 lineage sorting, 121 nitrate reductase activity, 449 hybrid zone, 83 linkage disequilibrium, 51 nitrate uptake, 449 hybridization9,1 , 113, 121, 133, local adaptation, 51 nitrogen, 459, 749, 811 225 Lolium perenne, 81) nocturnal warming, 819 hypoxia, 35 long-chain base, 677 nodal roots, 811 Lonicera japonica, 827 nonphotochemical quenching, 781 Iberian peninsula, 837 Louisiana Irises, 143 non-radioactive tracer, 303 incongruence, 121 LRR-structured model, 427 Nothofagus cunninghamii, 585 www.newphytologist.org © New Phytologist (2004) 161: 891-894 New Phytologist Keyword index 893 null-balance chambers, 21 pollutant N deposition, 279 salicylic acid, 801 nurse plant, 485 polyamines, 847 salt tolerance, 225 nutrient uptake, 549 polyphosphate, 387 saprotrophic, 569 polyphosphate kinase, 387 Saxifraga oppositifolia (Purple saxifrage), open access, 3 polyploid speciation, 703 211 ornithine decarboxylase, 847 polyploidy, 8, 91, 121, 173, 612 Sclerotinia sclerotiorum, 847 oxalate, 435 polysaccharides, 641 seed dispersal, 151 oxidative stress, 791 population size, 59 seed dormancy, 401 ozone, 791 population structure and dynamic, 539 seedlings, 865 population subdivision, 59 selection, 59, 199 palaeoecology, 339, 585 Populus deltoides (cottonwood), 819 selective sweep, 59 palaeogenetics, 339 Populus trichocarpa, 335 self-incompatibility, 97 paleobotany, 329 postzygotic isolation, 703 semispecies, 143 paleoecology, 329 potential evapotranspiration, 837 sequence mismatches, 15 paper birch (Betula papyrifera), 791 prezygotic isolation, 703 sequences, 17 paradigms, 11 principal components analysis, 291 serpentine, 199 parallel evolution, 199, 253 Programmed Cell Death, 35, 557 shoot demography, 427 Paris-type arbuscular mycorrhizas, 865 Prunus africana, 517 shoot nitrogen, 503 partial least squares (PLS) regression, 291 Prunus avium, 401 shoot phosphorus, 503 pathogen resistance, 595 Pseudomonas fluorescens, 855 signal transduction, 557 PCR, 339 public DNA databases, 13 signalling, 193 pectins, 641 simulation, 703 peroxisomes, 791 Q,51 Sinorhizobium meliloti, 855 phenological shifts, 837 quantitative real-time PCR (qRT-PCR), soil DNA, $39 Phoma, 15 8 Southern beech, 585 phosphorus, 865 quantitative trait loci (QTL), 225 soybean (Glycine max) cells, 557 phosphorus limitation, 279 Quaternary, 211 Spartina, 165 phosphorus uptake, 279 Quercus petraea, 151 spatial patterns, 303 photoinhibition, 781 Quercus robur, 151 spec59i, 71a, 8t3,9 i1,o 97,n 107,, 1 13, photoprotection, 781 133, 165, 612 photorespiration, 341 rainfall changes, 837 spermidine synthase, 847 photosynthesis, 341, 459, 819 recalcitrant seed, 415 sphingolipid, 677 photosynthesis-disease-light relations, 577 reciprocal transplant, 83 SSU sequences, 17 Photo system II electron quantum yield, recombination, 107 stage, 427 715 red spruce (Picea rubens), 291 Stephanomeria, 7| phylogenetics, 13 reflectance spectra, 291 stomata, 193 phylogeny, 97, 165, 235 regeneration gene Rg-/, 761 stomatal complexes, 613 phylogeny reconstruction, 8 regulation, 735, 749 stomatal density, 585 phylogeography, 211 reproductive isolation, 59, 71, 107, 265, stratification, 415 phytoalexin, 723 612 strontium, 303 phytoremediation, 549 respiration, 819 succession, 151 Pinus sylvestris (Scots pine), reticulation, 121 sucrose, 495 plant, 35 RGR, 427 sucrose synthase, 495 plant competition, 485 Rhizoctonia solani, 569 sucrose: fructan-6-fructosyltransferase plant evolution, 211 Rhizopogon, 313 (6-SFT), 735 plant functional type, 503 Rhododendron, 773 sucrose: sucrose- | -fructosyltransferase Plant speciation, 8, 11, 143, 173 rice (Oryza sativa), 35, 459 (1-SST), 735 plant—pollinator interactions, 235 rmc, 485 sucrose transport, 393 pollen competition, 703 root colonization, 855 sugar sensing, 781 pollen database, 339 root vs shoot uptake, 449 Suillus bovinus, 549 pollen tube numbers, 473 root-surface phosphomonoesterase, symbiosis-regulated Ras-like protein, pollinator behavior, 83, 265 279 326 pollinator constancy, 113 S-adenosyl-methionine decarboxylase, symbiotic signaling, 326 pollinator fidelity, 703 847 synthetic theory, 11 © New Phytologist (2004) 161: 891-894 www.newphytologist.org New 894 Keyword index Phytologist systemic, 193 trehalose, 749 wall assembly, 641 systemic signalling, 324 tropical rainforest, 865 wall loosening and tightening, 641 2 tuberculate, 313 weighted average, 303 lagetes erecta, 5\7 wild cherry, 401 Tansley, 3 understory communities, 827 woody plants, 77 taxonomic misidentification, 13 UNIFLORA gene, 393 temperature, 819 United States Department of Energy Joint xyloglucan, 641 terminal restriction fragment length Genome Institute (JGI), 335 polymorphism (T-RFLP), 503 uptake, 303 yeast two-hybrid screens, 326 thermal time, 415 yeast two-hybrid system, 529 tobacco (Nicotiana tabaccum), 193 vacuole, 435 Toluidine Blue O, 387 validity, 17 zeatin, 761 tomato, 761, 877 Verne Grant, 8, 143 Zn tolerance, 549 topology 81] voucher material, 15 Zn toxicity, 549 transgressive segregation, 225 www.newphytologist.org © New Phytologist (2004) 161: 891-894 Pane ete hs moa ee BENS aL7 = ae r, ‘ * TieBae

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