Chin J Plant Ecol ›› 2008, Vol. 32 ›› Issue (2): 363-369.DOI: 10.3773/j.issn.1005-264x.2008.02.013
• Research Articles • Previous Articles Next Articles
LIU Zhi-Guo1, CAI Yong-Li1,*(), LI Kai2
Received:
2007-01-09
Accepted:
2007-06-09
Online:
2008-01-09
Published:
2008-03-30
Contact:
CAI Yong-Li
LIU Zhi-Guo, CAI Yong-Li, LI Kai. STUDIES ON THE LEAF SIZE-TWIG SIZE SPECTRUM OF SUBTROPICAL EVERGREEN BOARD-LEAVED WOODY SPECIES[J]. Chin J Plant Ecol, 2008, 32(2): 363-369.
物种 Species | TSL (mm) | TSM (mg) | TLM (mg) | LN | ILA (mm2) | TLA (mm2) |
---|---|---|---|---|---|---|
红皮树 Styrax suberifolius | 106.7 | 106.4 | 636 | 2.7 | 3 688 | 9 729 |
冬青Ilex purpurea | 87.0 | 52.7 | 467 | 8.7 | 675 | 5 824 |
三花冬青I. triflora | 44.7 | 106.2 | 140 | 4.3 | 411 | 1 778 |
毛冬青I. pubescens | 41.0 | 8.7 | 90 | 4.7 | 819 | 3 836 |
老虎刺Carissa spinarum | 115.7 | 251.6 | 1 443 | 5.0 | 2 444 | 12 294 |
小叶乌饭Vaccinium carlesii | 91.7 | 146.3 | 602 | 7.0 | 718 | 4 811 |
乌饭树V. bracteatum | 76.3 | 67.6 | 435 | 5.3 | 895 | 4 693 |
杜鹃Rhododendron simsii | 28.0 | 55.6 | 297 | 10.7 | 362 | 3 895 |
鹿角杜鹃Rh. latoucheae | 60.8 | 98.5 | 563 | 3.3 | 1 100 | 3 671 |
刺毛杜鹃Rh. championae | 76.0 | 71.8 | 658 | 4.3 | 3 031 | 13 793 |
弯蒴杜鹃Rh. henryi | 73.3 | 133.6 | 880 | 4.7 | 2 283 | 11 201 |
薯豆Elacocarpus japonicus | 116.7 | 34.8 | 81 | 3.0 | 598 | 1 851 |
虎皮楠Daphniphyllum oldhamii | 58.3 | 63.8 | 398 | 7.5 | 932 | 6673 |
檵木 Loropetalum chinense | 39.3 | 13.3 | 65 | 5.3 | 235 | 1 231 |
覃树 Altingia chinensis | 55.3 | 146.3 | 1 733 | 4.0 | 5 747 | 22 990 |
罗浮锥 Castanopsis fabri | 82.3 | 106.3 | 923 | 4.4 | 1 517 | 6 371 |
红锥 C. hystrix | 172.0 | 405.6 | 2 272 | 7.0 | 3 091 | 20 968 |
上杭锥 C. lamontii var.shanghangensis | 81.3 | 66.8 | 838 | 4.8 | 1 562 | 6 922 |
甜槠 C. eyrei | 90.0 | 77.3 | 518 | 5.8 | 825 | 4 545 |
米槠 C. carlesii | 75.4 | 34.9 | 257 | 5.5 | 688 | 3 735 |
南岭锥C. fordii | 102.2 | 168.0 | 947 | 5.0 | 2 246 | 10 913 |
卷斗青冈 Cyclobalanopsis pachyloma | 117.7 | 140.0 | 726 | 4.3 | 1 909 | 8 372 |
梅花山青冈 C. meihuashangensis | 119.3 | 167.0 | 798 | 10.5 | 1 030 | 10 641 |
细叶青冈C. myrsinaefolia | 171.0 | 303.5 | 733 | 5.3 | 1 761 | 8 644 |
青冈C. glauca | 115.3 | 245.2 | 1 112 | 5.6 | 2 046 | 10 748 |
两广石栎Lithocarpus synbalanos | 142.3 | 354.9 | 1 862 | 7.0 | 1 877 | 13 251 |
泡叶石栎 L. haipinii | 57.0 | 79.6 | 1 001 | 6.0 | 1 577 | 9 791 |
滑皮石栎 L. skanianus | 60.0 | 63.3 | 576 | 3.1 | 3 285 | 9 845 |
紫玉盘石栎 L. uvarifolius | 49.3 | 198.3 | 1 208 | 6.3 | 1 472 | 9 299 |
乳源木莲 Manglietia yuyuanensis | 46.3 | 134.4 | 1 047 | 2.3 | 5 943 | 13 624 |
野含笑 Michelia skinneriana | 68.2 | 60.0 | 437 | 3.2 | 2 189 | 6 595 |
水团花 Adina pilulifera | 166.7 | 186.8 | 376 | 4.7 | 1 504 | 6 886 |
狗骨柴 Tricalysia dubia | 163.3 | 317.7 | 1 402 | 4.0 | 3 892 | 15 569 |
石斑木 Rhaphiolepis indica | 18.6 | 25.1 | 163 | 4.1 | 367 | 1 483 |
坚荚树 Viburnum sempervirens | 36.0 | 65.9 | 427 | 2.0 | 1 794 | 3 588 |
石笔木 Tutcheria spectabilis | 42.0 | 401.5 | 2 332 | 5.7 | 2 753 | 15 052 |
细齿叶柃 Eurya nitida | 45.3 | 18.8 | 162 | 5.3 | 620 | 3 306 |
微毛柃 E. hebeclados | 42.5 | 18.8 | 105 | 6.2 | 418 | 2 526 |
格药柃 E. muricata | 38.0 | 51.3 | 269 | 3.3 | 950 | 3 085 |
单耳柃 E. weissiae | 24.1 | 39.5 | 269 | 2.6 | 1 129 | 2 964 |
大萼两广黄瑞木 Adinandra glichroloma | 44.0 | 130.1 | 1 317 | 3.0 | 4 979 | 14 937 |
黄瑞木 A. millettii | 30.8 | 43.0 | 231 | 4.3 | 528 | 2 262 |
红淡比 Cleyera japonica | 128.0 | 645.0 | 1217 | 2.3 | 3 385 | 7 713 |
厚皮香 Ternstroemia gymnanthera | 23.5 | 64.0 | 1 088 | 3.5 | 2 464 | 8 701 |
木荷 Schima superba | 68.0 | 207.3 | 1 232 | 6.5 | 2 271 | 14 885 |
油茶 Camellia oleifera | 42.1 | 117.2 | 440 | 3.8 | 896 | 3 157 |
柃叶莲蕊茶 C. euryoid | 77.3 | 20.3 | 110 | 9.3 | 195 | 1 837 |
尖连蕊茶 C.cuspidata | 69.7 | 37.8 | 217 | 4.4 | 781 | 3 447 |
羊舌树 Symplocos glauca | 63.7 | 177.1 | 724 | 4.0 | 1 659 | 6 421 |
光叶山矾 S. lancifolia | 67.3 | 43.2 | 232 | 4.3 | 822 | 3 582 |
尖叶四照花 Dendrobenthamia angustata | 88.0 | 99.6 | 311 | 5.0 | 619 | 3 029 |
赤楠 Syzygium buxifolium | 38.6 | 21.3 | 195 | 4.2 | 369 | 1 462 |
树参 Dendropanax dentiger | 42.7 | 148.1 | 1119 | 4.0 | 2 360 | 9 484 |
豪猪刺 Berberis julianae | 75.7 | 88.1 | 468 | 4.3 | 1 233 | 4 190 |
物种 Species | TSL (mm) | TSM (mg) | TLM (mg) | LN | ILA (mm2) | TLA (mm2) |
杨梅 Myrica rubra | 86.3 | 298.8 | 2 508 | 13.3 | 2 072 | 27 764 |
辣汁树 Cinnamomum tsangii | 91.0 | 79.4 | 478 | 5.0 | 1 065 | 5 308 |
香桂 C. subavenium | 95.0 | 83.9 | 541 | 4.0 | 1 384 | 5 535 |
黄樟 C. parthenoxylon | 59.8 | 91.4 | 648 | 3.1 | 3 748 | 11 617 |
山鸡椒 Litsea cubeba | 108.3 | 129.3 | 834 | 13.0 | 1 060 | 13 840 |
华南木姜子 L. greenmaniana | 131.7 | 183.3 | 998 | 6.0 | 1 814 | 10 771 |
红楠 Machilus thunbergii | 134.0 | 320.3 | 1 248 | 11.9 | 8 159 | 14 318 |
刨花楠 M. pauhoi | 71.0 | 104.1 | 1 105 | 5.2 | 2 273 | 12 018 |
绒毛润楠 M. velutina | 111.6 | 256.3 | 1 437 | 5.4 | 3 507 | 18 964 |
建润楠 M. oreophila | 57.5 | 130.1 | 1 897 | 6.4 | 3 435 | 21 949 |
黄绒润楠 M. grijsii | 68.9 | 163.3 | 1 278 | 4.8 | 3 026 | 14 634 |
新木姜子 Neolitsea aurata | 81.3 | 83.5 | 601 | 4.2 | 2 574 | 10 402 |
山血丹 Ardisia punctata | 142.3 | 273.3 | 1 344 | 9.7 | 1 273 | 12 389 |
Table 1 Trait means for the 68 study species at the twig level on Meihuashan Mountain, East China
物种 Species | TSL (mm) | TSM (mg) | TLM (mg) | LN | ILA (mm2) | TLA (mm2) |
---|---|---|---|---|---|---|
红皮树 Styrax suberifolius | 106.7 | 106.4 | 636 | 2.7 | 3 688 | 9 729 |
冬青Ilex purpurea | 87.0 | 52.7 | 467 | 8.7 | 675 | 5 824 |
三花冬青I. triflora | 44.7 | 106.2 | 140 | 4.3 | 411 | 1 778 |
毛冬青I. pubescens | 41.0 | 8.7 | 90 | 4.7 | 819 | 3 836 |
老虎刺Carissa spinarum | 115.7 | 251.6 | 1 443 | 5.0 | 2 444 | 12 294 |
小叶乌饭Vaccinium carlesii | 91.7 | 146.3 | 602 | 7.0 | 718 | 4 811 |
乌饭树V. bracteatum | 76.3 | 67.6 | 435 | 5.3 | 895 | 4 693 |
杜鹃Rhododendron simsii | 28.0 | 55.6 | 297 | 10.7 | 362 | 3 895 |
鹿角杜鹃Rh. latoucheae | 60.8 | 98.5 | 563 | 3.3 | 1 100 | 3 671 |
刺毛杜鹃Rh. championae | 76.0 | 71.8 | 658 | 4.3 | 3 031 | 13 793 |
弯蒴杜鹃Rh. henryi | 73.3 | 133.6 | 880 | 4.7 | 2 283 | 11 201 |
薯豆Elacocarpus japonicus | 116.7 | 34.8 | 81 | 3.0 | 598 | 1 851 |
虎皮楠Daphniphyllum oldhamii | 58.3 | 63.8 | 398 | 7.5 | 932 | 6673 |
檵木 Loropetalum chinense | 39.3 | 13.3 | 65 | 5.3 | 235 | 1 231 |
覃树 Altingia chinensis | 55.3 | 146.3 | 1 733 | 4.0 | 5 747 | 22 990 |
罗浮锥 Castanopsis fabri | 82.3 | 106.3 | 923 | 4.4 | 1 517 | 6 371 |
红锥 C. hystrix | 172.0 | 405.6 | 2 272 | 7.0 | 3 091 | 20 968 |
上杭锥 C. lamontii var.shanghangensis | 81.3 | 66.8 | 838 | 4.8 | 1 562 | 6 922 |
甜槠 C. eyrei | 90.0 | 77.3 | 518 | 5.8 | 825 | 4 545 |
米槠 C. carlesii | 75.4 | 34.9 | 257 | 5.5 | 688 | 3 735 |
南岭锥C. fordii | 102.2 | 168.0 | 947 | 5.0 | 2 246 | 10 913 |
卷斗青冈 Cyclobalanopsis pachyloma | 117.7 | 140.0 | 726 | 4.3 | 1 909 | 8 372 |
梅花山青冈 C. meihuashangensis | 119.3 | 167.0 | 798 | 10.5 | 1 030 | 10 641 |
细叶青冈C. myrsinaefolia | 171.0 | 303.5 | 733 | 5.3 | 1 761 | 8 644 |
青冈C. glauca | 115.3 | 245.2 | 1 112 | 5.6 | 2 046 | 10 748 |
两广石栎Lithocarpus synbalanos | 142.3 | 354.9 | 1 862 | 7.0 | 1 877 | 13 251 |
泡叶石栎 L. haipinii | 57.0 | 79.6 | 1 001 | 6.0 | 1 577 | 9 791 |
滑皮石栎 L. skanianus | 60.0 | 63.3 | 576 | 3.1 | 3 285 | 9 845 |
紫玉盘石栎 L. uvarifolius | 49.3 | 198.3 | 1 208 | 6.3 | 1 472 | 9 299 |
乳源木莲 Manglietia yuyuanensis | 46.3 | 134.4 | 1 047 | 2.3 | 5 943 | 13 624 |
野含笑 Michelia skinneriana | 68.2 | 60.0 | 437 | 3.2 | 2 189 | 6 595 |
水团花 Adina pilulifera | 166.7 | 186.8 | 376 | 4.7 | 1 504 | 6 886 |
狗骨柴 Tricalysia dubia | 163.3 | 317.7 | 1 402 | 4.0 | 3 892 | 15 569 |
石斑木 Rhaphiolepis indica | 18.6 | 25.1 | 163 | 4.1 | 367 | 1 483 |
坚荚树 Viburnum sempervirens | 36.0 | 65.9 | 427 | 2.0 | 1 794 | 3 588 |
石笔木 Tutcheria spectabilis | 42.0 | 401.5 | 2 332 | 5.7 | 2 753 | 15 052 |
细齿叶柃 Eurya nitida | 45.3 | 18.8 | 162 | 5.3 | 620 | 3 306 |
微毛柃 E. hebeclados | 42.5 | 18.8 | 105 | 6.2 | 418 | 2 526 |
格药柃 E. muricata | 38.0 | 51.3 | 269 | 3.3 | 950 | 3 085 |
单耳柃 E. weissiae | 24.1 | 39.5 | 269 | 2.6 | 1 129 | 2 964 |
大萼两广黄瑞木 Adinandra glichroloma | 44.0 | 130.1 | 1 317 | 3.0 | 4 979 | 14 937 |
黄瑞木 A. millettii | 30.8 | 43.0 | 231 | 4.3 | 528 | 2 262 |
红淡比 Cleyera japonica | 128.0 | 645.0 | 1217 | 2.3 | 3 385 | 7 713 |
厚皮香 Ternstroemia gymnanthera | 23.5 | 64.0 | 1 088 | 3.5 | 2 464 | 8 701 |
木荷 Schima superba | 68.0 | 207.3 | 1 232 | 6.5 | 2 271 | 14 885 |
油茶 Camellia oleifera | 42.1 | 117.2 | 440 | 3.8 | 896 | 3 157 |
柃叶莲蕊茶 C. euryoid | 77.3 | 20.3 | 110 | 9.3 | 195 | 1 837 |
尖连蕊茶 C.cuspidata | 69.7 | 37.8 | 217 | 4.4 | 781 | 3 447 |
羊舌树 Symplocos glauca | 63.7 | 177.1 | 724 | 4.0 | 1 659 | 6 421 |
光叶山矾 S. lancifolia | 67.3 | 43.2 | 232 | 4.3 | 822 | 3 582 |
尖叶四照花 Dendrobenthamia angustata | 88.0 | 99.6 | 311 | 5.0 | 619 | 3 029 |
赤楠 Syzygium buxifolium | 38.6 | 21.3 | 195 | 4.2 | 369 | 1 462 |
树参 Dendropanax dentiger | 42.7 | 148.1 | 1119 | 4.0 | 2 360 | 9 484 |
豪猪刺 Berberis julianae | 75.7 | 88.1 | 468 | 4.3 | 1 233 | 4 190 |
物种 Species | TSL (mm) | TSM (mg) | TLM (mg) | LN | ILA (mm2) | TLA (mm2) |
杨梅 Myrica rubra | 86.3 | 298.8 | 2 508 | 13.3 | 2 072 | 27 764 |
辣汁树 Cinnamomum tsangii | 91.0 | 79.4 | 478 | 5.0 | 1 065 | 5 308 |
香桂 C. subavenium | 95.0 | 83.9 | 541 | 4.0 | 1 384 | 5 535 |
黄樟 C. parthenoxylon | 59.8 | 91.4 | 648 | 3.1 | 3 748 | 11 617 |
山鸡椒 Litsea cubeba | 108.3 | 129.3 | 834 | 13.0 | 1 060 | 13 840 |
华南木姜子 L. greenmaniana | 131.7 | 183.3 | 998 | 6.0 | 1 814 | 10 771 |
红楠 Machilus thunbergii | 134.0 | 320.3 | 1 248 | 11.9 | 8 159 | 14 318 |
刨花楠 M. pauhoi | 71.0 | 104.1 | 1 105 | 5.2 | 2 273 | 12 018 |
绒毛润楠 M. velutina | 111.6 | 256.3 | 1 437 | 5.4 | 3 507 | 18 964 |
建润楠 M. oreophila | 57.5 | 130.1 | 1 897 | 6.4 | 3 435 | 21 949 |
黄绒润楠 M. grijsii | 68.9 | 163.3 | 1 278 | 4.8 | 3 026 | 14 634 |
新木姜子 Neolitsea aurata | 81.3 | 83.5 | 601 | 4.2 | 2 574 | 10 402 |
山血丹 Ardisia punctata | 142.3 | 273.3 | 1 344 | 9.7 | 1 273 | 12 389 |
Fig.1 Cross-species relationship between twig cross-sectional area and the traits, including twig stem mass (A), twig leaf mass (B), total leaf area (C) and individual leaf area (D)
[1] | Brouat C, Gibernau M, Amsellem L, McKey D (1998). Corner's rules revisited: ontogenetic and inter specific patterns in leaf-stem allometry. New Phytologist, 139, 459-470. |
[2] | Brown JH, Gillool JF, Allen AP, Savage VM, West GB (2004). Toward a metabolic theory of ecology. Ecology, 85, 1771-1789. |
[3] | Corner EJH (1949). The durian theory or the origin of the modern tree. Annals of Botany, 13, 367-414. |
[4] | Diemer M (1998). Life span and dynamics of leaves of herbaceous perennials in high-elevation environments—news from the elephant's leg. Functional Ecology, 12, 413-425. |
[5] | Enquist BJ (2002). Universal scaling in tree and vascular plant allometry: toward a general quantitative theory linking plant form and function from cells to ecosystems. Tree Physiology, 22, 1045-1064. |
[6] | Enquist BJ (2003). Cope's rule and the evolution of long-distance transport in vascular plants: allometric scaling, biomass partitioning and optimization. Plant, Cell and Environment, 26, 151-161. |
[7] | Enquist BJ, Niklas KJ (2001). Invariant scaling relations across tree dominated communities. Nature, 410, 655-660. |
[8] | Enquist BJ, Niklas KJ (2002). Global allocation rules for patterns of biomass partitioning in seed plants. Science, 295, 1517-1520. |
[9] | Enquist BJ, West GB, Charnov EL, Brown JH (1999). Allometric scaling of production and life-history variation in vascular plants. Nature, 401, 907-911. |
[10] | Falster DS, Warton DI, Wright IJ (2003). (S)MATR: Standardised major axis tests and routines. Version 1.0. http://www.bio.mq.edu.au/ecology/SMATR. Cited 20 Sept. 2005. |
[11] | Gillooly JF, Brown JH, West GB, Savage VM, Charnov EL (2001). Effects of size and temperature on metabolic rate. Science, 293, 2248-2251. |
[12] | Hallé F, Oldman RAA, Tomlinson PB(1978). Tropical Trees and Forests: an Architectural Analysis. Springer-Verlay, Berlin, Heidelberg, New York. |
[13] | Harvey PJ, Pagel MD (1991). The Comparative Method in Evolutionary Biology. Oxford University Press, Oxford, UK. |
[14] | King DA (1991). Correlations between biomass allocation, relative growth rate and light environment in tropical forest saplings. Functional Ecology, 5, 485-492. |
[15] | King DA (1998). Influence of leaf size on tree architecture: first branch height and crown dimensions in tropical rain forest trees. Trees, 12, 438-445. |
[16] | LaBarbera M (1989). Analyzing body size as a factor in ecology and evolution. Annual Review of Ecology and Systematics, 20, 97-117. |
[17] | Maynard SJ, Burian R, Kauffman S, Alberch P, Campbell J, Goodwin B, Lande R, Raup D, Wolpert L (1985). Developmental constraints and evolution. The Quarterly Review of Biology, 60, 265-287. |
[18] | Menges ES (1987). Biomass allocation and geometry of the clonal forest herb, Laportea canadensis: adaptive response to the environment or allometric constraints. American Journal of Botany, 74, 551-563. |
[19] | Midgley J, Bond W (1989). Leaf size and inflorescence size may be allometrically related traits. Oecologia, 78, 427-429. |
[20] | Mulkey SS, Kitajima K, Wright SJ (1995). Photosynthetic capacity and leaf longevity in the canopy of a dry tropical forest. Selbyana, 16, 169-173. |
[21] | Niklas KJ (1992). Plant Biomechanics: an Engineering Approach to Plant Form and Function. The University of Chicago Press, Chicago, IL, USA. |
[22] | Niklas KJ (1994). Plant Allometry: the Scaling of Form and Process. The University of Chicago Press, Chicago, IL, USA and London, UK. |
[23] | Niklas KJ (1995). Size-dependent allometry of tree height, diameter and trunk-taper. Annals of Botany, 75, 217-227. |
[24] | Niklas KJ, Enquist BJ (2001). Invariant scaling relationships for interspecific plant biomass production rates and body size. Proceedings of the National Academy of Sciences of the United States of America, 98, 2922-2927. |
[25] | Niklas KJ, Enquist BJ (2002). Canonical rules for plant organ biomass partitioning and growth allocation. American Journal of Botany, 89, 812-819. |
[26] |
Preston KA, Ackerly DD (2003). Hydraulic architecture and the evolution of shoot allometry in contrasting climates. American Journal of Botany, 90, 1502-1512.
URL PMID |
[27] | Primack RB (1987). Relationships among flowers, fruits and seeds. Annual Review of Ecology and Systematics, 18, 409-430. |
[28] | Reich PB, Ellsworth DS, Walters MB, Vose JM, Gresham C, Volin JC, Bowman WD (1999). Generality of leaf trait relationships: a test across six biomes. Ecology, 80, 1955-1969. |
[29] | Reich PB, Walters MB, Ellsworth DS (1992). Leaf lifespan in relation to leaf, plant, and stand characteristics among diverse ecosystems. Ecological Monographs, 62, 65-392. |
[30] | Reich PB, Walters MB, Ellsworth DS (1997). From tropics to tundra: global convergence in plant functioning. Proceedings of the National Academy of Sciences of the United States of America, 94, 13730-13734. |
[31] |
Reich PB, Tjoelker MG, Machado JL, Oleksynv J (2006). Universal scaling of respiratory metabolism, size and nitrogen in plants. Nature, 439, 457-461.
URL PMID |
[32] | Speck T, Spatz HC, Vogellehner D (1990). Contributions to the biomechanics of plants. Ⅰ. Stabilities of plant stems with strengthening elements of different cross-sections against weight and wind forces. Botanica Acta, 103, 111-122. |
[33] | Sun SC, Jin DM, Shi PL (2006). The leaf size-twig size spectrum of temperate woody species along an altitudinal gradient: an invariant allometric scaling relationship. Annals of Botany, 97, 97-107. |
[34] | Thomas SC, Weiner J (1989). Growth, death and size distribution change in an Impatiens pallida population. Journal of Ecology, 77, 524-536. |
[35] | West GB, Brown JH, Enquist BJ (1997). A general model for the origin of allometric scaling laws in biology. Science, 276, 122-126. |
[36] | West GB, Brown JH, Enquist BJ (1999). A general model for the structure, and allometry of plant vascular systems. Nature, 400, 664-667. |
[37] | Westoby M, Falster DS, Moles AT, Vesk PA, Wright IJ (2002). Plant ecological strategies: some leading dimensions of variation between species. Annual Review of Ecology and Systmatics, 33, 125-159. |
[38] | Westoby M, Wright IJ (2003). The leaf size-twig size spectrum and its relationship to other important spectra of variation among species. Oecologia, 135, 621-628. |
[39] | White J (1981). Allometric interpretation of the self—thinning rule. Journal of Theoretical Biology, 87, 475-503. |
[40] | White PS (1983a). Corner's rules in eastern deciduous trees: allometry and its implications for the adaptive architecture of trees. Bulletin of the Torrey Botanical Club, 110, 203-212. |
[41] | White PS (1983b). Evidence that temperate east North American evergreen woody plants follow Corner's rules. New Phytologist, 95, 139-145. |
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