Ecological Wood Anatomy of the Woody Southern Californian Flora

IAWA Journal ◽  
1985 ◽  
Vol 6 (4) ◽  
pp. 319-347 ◽  
Author(s):  
Sherwin Carlquist ◽  
David A. Hoekman
Keyword(s):  
Southern California ◽  
Woody Species ◽  
Adaptive Strategy ◽  
Vessel Diameter ◽  
Vessel Element ◽  
Growth Rings ◽  
Desert Shrubs ◽  
Perforation Plate ◽  
Vessel Elements ◽  
Perforation Plates

Wood of 207 species, representing all 178 woody genera of the Munz flora of southern California, was studied by means of sections and macerations. Data were gathered on features relating to the conducting system: number of vessels per mm2, diameter of vessels, length of vessel elements, number of bars per perforation plate, presence of true tracheids, vasicentric tracheids, vascular tracheids, helical sculpture, and growth rings. The occurrence of these features is analysed both with respect to each other and to ecological groupings and habit groupings. Statistically significant data permit ecological groupings to demonstrate degree of xeromorphy in wood features. Xeromorphy is indicated by more numerous vessels per mm2, narrow vessels, shorter vessel elements, presence of vasicentric tracheids or vascular tracheids, presence of helical sculpture on vessel walls, and presence of well-marked growth rings (growth rings are common in moist habitats because in southern California these are also montane and therefore cold in winter). All of these appear to have developed in many phylads independently. Vessel element length appears to change less rapidly, at least in some phylads (those with true tracheids) than the other features. Presence of scalariform perforation plates and of true tracheids is interpreted as relictual; scalariform plates occur virtually only in mesic habitats and in a small number of species. True tracheids, although relictual in nature, have been preferentially preserved because of the value of their enormous safety. Groups without true tracheids have evolved vasicentric tracheids or vascular tracheids (the three types are mutually exclusive) to a high degree. By deducting the species with true and vascular tracheids, one finds that 100% of the alpine shrubs, 77% of the desert shrubs, and 75% of the chaparral shrubs which could possibly have evolved vasicentric tracheids actually have them. These are the three ecological groupings which have vasicentric tracheids not only in southern California, but other areas of the world as well. Tracheid presence (and to a lesser extent vasicentric tracheid presence) forestalls vessel grouping, but in tracheid-free groups vessel grouping is a highly adaptive strategy for xeromorphy. One can rank xeromorphic connotation of qualitative features on the basis of data herein: growth rings are the most common numerically, followed by helical sculpture, vasicentric tracheids, and vascular tracheids. Vasicentric tracheids, like true tracheids, tend to occur in evergreen shrubs whereas vascular tracheids tend to be related to drought-deciduous shrubs. Among quantifiable features, number of vessels per mm2 changes more rapidly than vessel diameter. Scalariform perforation plates, true tracheid presence, and long vessel elements are associated with each other statistically . By entering number of woody species for each genus in the flora and performing appropriate computations, a figure for each feature is projected on the basis of the 512 woody species of southern California. This pro-rated figure shows that phylads with any of the mechanisms cited as signifying xeromorphy speciate much more rapidly than do the phylads with mesomorphic wood features.

Wood anatomy of Cussonia and Seemannaralia (Araliaceae) with systematic and ecological implications

IAWA Journal ◽  
2012 ◽  
Vol 33 (2) ◽  
pp. 163-186 ◽  
Author(s):  
Bernard J. De Villiers ◽  
Alexei A. Oskolski ◽  
Patricia M. Tilney ◽  
Ben-Erik Van Wyk
Keyword(s):  
Vessel Diameter ◽  
Molecular Data ◽  
Vessel Element ◽  
Wood Structure ◽  
Vessel Element Length ◽  
Vessel Elements ◽  
Group A ◽  
Perforation Plates ◽  
Wood Evolution

The wood structure of two related African genera, Cussonia Thunb. (15 of 21 species) and the monotypic Seemannaralia R.Vig. (Araliaceae) is examined. The considerable diversity in wood anatomical characters within these taxa is mostly related to environmental factors; taxonomic groupings or phylogenetic relationships seem to be less important. The shortening of vessel elements and fibres, an increase in vessel number per group, a decrease in vessel diameter and a reduction in the number of bars of perforation plates, are associated with the more temperat species. The changes in vessel grouping show a significant correlation with rainfall. The placement of the simple-leaved Cussonia species in the subgenus Protocussonia and the isolated position of C. paniculata Eckl. & Zeyh., the only member of the subgenus Paniculatae, are supported. Many Cussonia species share a very low fibre to vessel element length ratio. Despite the basal position of Seemannaralia relative to Cussonia revealed by molecular data (Plunkett et al. 2004), its wood structure is more specialised in terms of the Baileyan major trends in wood evolution. This discrepancy may be the effect of a long-term adaptation of tropical ancestors of Seemannaralia to drier biomes.

VESSEL MEMBERS IN THE STEM OF DIOSCOREA ALATA L.

1967 ◽  
Vol 45 (2) ◽  
pp. 155-167 ◽  
Author(s):  
J. J. Shah ◽  
K. Unnikrishnan ◽  
K. V. Poulose
Keyword(s):  
Vessel Element ◽  
Dioscorea Alata ◽  
Gujarat State ◽  
Perforation Plate ◽  
Vessel Elements ◽  
Ontogenetic Study ◽  
Final Length ◽  
The Common ◽  
Perforation Plates ◽  
Mother Nucleus

The internodal and nodal vessel elements and certain aspects of their ontogeny in the stem of Dioscorea alata L., the common cultivated yam of Gujarat State, India, are described. The internodal vessel elements are unusually long with foraminate, scalariform, reticulate, or rarely simple perforation plates. The nodal vessel elements are comparatively short with two to five perforation plates. They generally differ from internodal vessel elements in characters such as (i) size and shape and (ii) nature, number, inclination, and distribution of perforation plates. The ontogenetic study of the vessel element revealed that the coenocytic condition is a result of frequent mitotic divisions of the mother nucleus. The formation of the perforation plate occurs after the vessel element has reached final length. The protoplast persists after the formation of the perforation plate. In D. alata the cell wall in the region of the perforation shows primordial pits.

Wood Anatomy of the Styracaceae: Evolutionary and Ecological Considerations

IAWA Journal ◽  
1985 ◽  
Vol 6 (1) ◽  
pp. 3-22 ◽  
Author(s):  
William C. Dickison ◽  
Kristen D. Phend
Keyword(s):  
Evolutionary Significance ◽  
Vessel Element ◽  
Strongly Correlated ◽  
Axial Parenchyma ◽  
Perforation Plate ◽  
Seasonally Dry ◽  
Vessel Element Length ◽  
Bordered Pits ◽  
Vessel Elements ◽  
Perforation Plates

Woods of over 40 species representing nine genera of Styracaceae were studied. Features present in most taxa include growth rings, diffuse porosity, combinations of both solitaries and pore multiples, exclusively scalariform perforation plates, opposite to alternate intervessel pitting, imperforate tracheary elements with indistinctly bordered pits, both uniseriate and multiseriate heterocellular rays, and axial parenchyma distributed as a combination of diffuse, diffuse-in-aggregates, and scanty. Prismatic crystals occur in species of the genera Bruinsmia, Halesia, and Styrax, and silica is present in a few Neotropical species of Styrax. The characteristic solitary pore distribution and high scalariform perforation plate bar number of Huodendron are of potential evolutionary significance. The xylem of Lissocarpa differs from the Styracaceae in possessing more highly evolved vessel elements with both simple and scalariform perforations and prominently banded axial parenchyma. The occurrence of simple perforation plates in the wider, earlywood vessel elements, along with an increased pore frequency and decreased vessel element length, in Styrax platanifolius and S. texanus is documented. Both species inhabit seasonally dry habitats of the southwestern United States, thus supporting similar specialisations observed in other plants growing in xerophytic conditions. The apparent variation in perforation plate condition within different geographic varieties of S. officinalis is discussed. Significant correlations of wood anatomical characters and latitude of provenance are present among species of Styracaceae. Increasing latitude is strongly correlated with increased pore and multiseriate ray frequency, and decreased vessel element length and wall thickness. Increasing latitude is less strongly correlated with an occurrence of decreased pore diameter, increased bar number per perforation plate, increased fibre-tracheid and intervessel pit diameter, and increased frequency of uniseriate rays. Weak correlations are also evident between increasing latitude and shorter ray height and narrower, shorter, and thinner-walled fibre-tracheids.

Wood Anatomy of the Altingiaceae and Hamamelidaceae

IAWA Journal ◽  
2010 ◽  
Vol 31 (4) ◽  
pp. 399-423 ◽  
Author(s):  
Elisabeth A. Wheeler ◽  
Sung Jae Lee ◽  
Pieter Baas
Keyword(s):  
Wood Anatomy ◽  
New Combination ◽  
Vessel Element ◽  
Axial Parenchyma ◽  
Perforation Plate ◽  
Vessel Elements ◽  
Ray Parenchyma ◽  
Ray Parenchyma Cells ◽  
Perforation Plates ◽  
Helical Thickenings

Wood anatomical data for all three extant genera of the Altingiaceae and 23 of the 27 extant genera of the Hamamelidaceae were compiled in an effort to find features distinctive to genera, tribes, or subfamilies within these families. All genera studied have diffuse porous wood (except Corylopsis which tends to be semi-ring porous), vessels are predominantly solitary and narrow (<100 μm, usually <50 μm) and angular in outline, vessel elements are long (>800 μm) with scalariform perforation plates with average bar numbers of 9–44, intervessel pits are mainly scalariform to opposite, vessel-ray parenchyma pits are scalariform with slightly reduced borders and usually are in the square to upright marginal ray parenchyma cells, rays are heterocellular and narrow, usually 1–3-seriate. Although the wood anatomy of both families is relatively homogeneous, it is possible to key out many genera using a combination of qualitative (presence/absence and location of helical thickenings in vessel elements and fibers, crystal occurrence, axial parenchyma abundance, degree of ray heterogeneity) and quantitative features (number of bars per perforation plate and ray width). Helical thickenings are present throughout the vessel elements in three genera (Loropetalum, Altingia, Semiliquidambar) and are restricted to the vessel element tails in two genera (Corylopsis, Liquidambar). Loropetalum has helical thickenings in ground tissue fibers as well. Axial parenchyma abundance varies from scarce to relatively abundant diffuse to diffuse-in-aggregates. One clade of the tribe Fothergilleae (Distylium, Distyliopsis, Sycopsis, Shaniodendron, Parrotia, Parrotiopsis) has more abundant axial parenchyma and is characterized by narrow, usually interrupted bands of apotracheal parenchyma. Nearly exclusively uniseriate rays occur in some species of Hamamelis and in Exbucklandia, Chunia, Dicoryphe, and Fothergilla. These data on extant Altingiaceae and Hamamelidaceae not only provide information relevant for systematic, phylogenetic and ecological wood anatomy and wood identification, but also give context for reviewing the fossil woods assigned to them. A new combination is proposed for the Miocene Liquidambar hisauchii (Watari) Suzuki & Watari from Japan: Altingia hisauchii (Watari) Wheeler, Baas & Lee.

Wood Anatomy of Capparis Spinosa from an Ecological Perspective

IAWA Journal ◽  
1999 ◽  
Vol 20 (4) ◽  
pp. 419-429 ◽  
Author(s):  
G.K. Psaras ◽  
I. Sofroniou
Keyword(s):  
Wood Anatomy ◽  
Adaptive Strategy ◽  
Ecological Perspective ◽  
Summer Drought ◽  
Anatomical Features ◽  
Vessel Elements ◽  
Capparis Spinosa ◽  
The Mediterranean ◽  
Perforation Plates ◽  
Xylem Conduits

Root and stern wood of the Mediterranean summergreen Capparis spinosa L. was studied. Wood anatomical features favour high hydraulic conductivity, which is necessary for maintaining the high midday stomatal conductance and rates of photosynthesis observed in this plant. Xylem conduits of both stern and root consist of wide and short vessel elements with simple perforation plates. Vessel grouping in the stern secures xylem safety against cavitations. The plant would be highly vulnerable to cavitations due to freezing conditions, although these are rare during the Mediterranean winter. Thus, the anatomical features of the plant, which does not seem to suffer from water stress though growing entirely during the Mediterranean summer drought, are compatible with its adaptive strategy. The significant amount of minerals found in the root vessels, and the abundant starch grains of the wood might be involved in a possible osmotic shifting of water in the xylem.

Stem anatomy of Apioideae (Apiaceae): effects of habit and reproductive strategy

IAWA Journal ◽  
2021 ◽  
pp. 1-20
Author(s):  
Kamil E. Frankiewicz ◽  
Alexei A. Oskolski ◽  
Jean-Pierre Reduron ◽  
Łukasz Banasiak ◽  
Jorge-Alfredo Reyes-Betancort ◽  
...  
Keyword(s):  
Reproductive Strategy ◽  
Fibre Length ◽  
Vessel Diameter ◽  
Tissue Type ◽  
Vessel Element ◽  
Ground Tissue ◽  
Stem Anatomy ◽  
Perforation Plate ◽  
Close Relatives ◽  
Plate Type

Abstract Apioideae is the biggest and the most diverse of four subfamilies recognised within Apiaceae. Except for a few, likely derived, woody clades, most representatives of this subfamily are herbaceous. In the present study, we assessed stem anatomy of 87, mostly therophytic and hemicryptophytic, species from at least 20 distinct lineages of Apioideae, and juxtaposed them with 67 species from our previous anatomical projects also focused on this subfamily. Comparing our data with the literature, we found that wood anatomy does not allow for a distinction between apioids and their close relatives (Azorelloideae, Saniculoideae), but more distantly related Mackinlayoideae differ from Apioideae in their perforation plate type. Vessel element and fibre length, and vessel diameter were positively correlated with plant height: phenomena already reported in literature. Similar pattern was retrieved for vertical intervessel pit diameter. Wood ground tissue in apioids ranges from entirely fibrous to parenchymatous. The shortening of internodes seems to favour the formation of parenchymatic ground tissue, whereas the early shift to flowering promotes the deposition of fibrous wood in monocarpic species. These results support a hypothesis on interdependence among internode length, reproductive strategy, and wood ground tissue type.

scholarly journals Comparative wood anatomy of Atraphaxis taxa in Turkey

BioResources ◽  
2020 ◽  
Vol 16 (1) ◽  
pp. 835-845
Author(s):  
Funda Erşen Bak ◽  
Derya Cesur
Keyword(s):  
Wall Thickness ◽  
Wood Anatomy ◽  
Growth Rings ◽  
Natural Distribution ◽  
Vessel Wall Thickness ◽  
Perforation Plate ◽  
Vessel Elements ◽  
Comparative Wood Anatomy ◽  
Vestured Pits ◽  
Standard Techniques

The wood anatomy of four Atraphaxis taxa that have natural distribution in Turkey—Atraphaxis billardieri Jaub. & Spach, Atraphaxis billardieri subsp. tournefortii (Jaup. & Spach) Lovelius, Atraphaxis spinosa L., and endemic Atraphaxis grandiflora (Willd.)—were compared in this study. The wood samples were sectioned according to standard techniques. Samples were macerated with Schultze’s method. Tangential and radial vessel diameters, intervessel pit diameters, vessel wall thickness, vessel elements length, dimensions of libriform fibres (lengths, widths, cell wall thickness and, lumen diameter), and uniseriate and biseriate ray heights were measured, and the number of vessels per mm2, number of rays per mm, and number of vessels per group were counted. The qualitative features such as growth rings, vessel grouping, presence of helical thickening and storied structure, vestured pits, type of perforation plate, and arrangement of axial parenchyma were determined. These four species of Atraphaxis shrubs differ in some wood characteristics such as growth rings, vessel grouping, vestured pits, height and density of rays, number of vessels per mm2, and the dimensions of the vessel.

Eco-Anatomical Wood Features of Species from a Very Dry Tropical Forest

IAWA Journal ◽  
1994 ◽  
Vol 15 (4) ◽  
pp. 361-376 ◽  
Author(s):  
Helga Lindorf
Keyword(s):  
Tropical Forest ◽  
Wood Anatomy ◽  
Small Diameter ◽  
Vessel Diameter ◽  
Dry Forest ◽  
Vessel Element ◽  
Deep Roots ◽  
Vessel Element Length ◽  
Vessel Elements ◽  
Hydraulic Safety

In 19 species of a very dry forest in Venezuela vessel diameter, vessel frequency, vessel grouping, vessel element length, and intervessel pit size, were studied and compared with data from other habitats. A predominance of characters that presumably contribute to hydraulic safety was observed: numerous grouped vessels of small diameter, short vessel elements, and minute intervessel pits. In some species, a xeromorphic wood anatomy coexists together with adaptations such as deciduousness, xeromorphic foliage, deep or superficially-extended roots, and succulence. In other species studied, the presence of xerophytic adaptations such as assimilating stems, succulence, and deep roots, seem to mitigate the xeromorphic wood appearance and, to some extent, lend it a mesomorphic character.

SEM Studies on Vessels in Ferns. 8. Platyzoma

1999 ◽  
Vol 47 (2) ◽  
pp. 277 ◽  
Author(s):  
Sherwin Carlquist ◽  
Edward L. Schneider ◽  
Kevin F. Kenneally
Keyword(s):  
Water Availability ◽  
Secondary Wall ◽  
Selective Advantage ◽  
Wall Material ◽  
Perforation Plate ◽  
Potential Value ◽  
Wide Range ◽  
Vessel Elements ◽  
Perforation Plates ◽  
Scanning Electron

Using scanning electron microscopy (SEM), vessels are demonstrated for roots and rhizomes of Platyzoma microphyllum R.Br. Because vessels are not in simple linear series, but have tips in contact with tips of other vessels, vessel elements may have several end walls, and each of these can bear a perforation plate. Vessels in roots are narrow, but have wide perforations. In rhizomes, perforation plates have a wide range of morphology. The most notable of these involves displacement and, frequently, fusion of adjacent bars of secondary wall material, so that large perforations tend to alternate with narrow perforations or with two or three fused bars. Porose pit membranes are present in narrower perforations. The presence of wide perforations achieved by means of bar displacement characterises not merely Platyzoma, but other ferns as well: Microgramma and Phlebodium. These three genera of ferns experience marked fluctuation in water availability, so that not only are vessels of potential value for rapid conduction during brief periods of water availability, but the presence of perforation plates conducive to such rapid conduction is of theoretical selective advantage as well. Stelar fibres that bear crystals on external surfaces of walls are reported for roots of Platyzoma. Such fibres have not been reported hitherto for ferns.

scholarly journals Anatomía de la madera de especies arbóteas de un bosque mesófilo de montaña: un enfoque ecológico-evolutivo

2017 ◽  
pp. 51 ◽  
Author(s):  
Silvia Aguilar-Rodríguez ◽  
Josefina Barajas-Morales
Keyword(s):  
Cloud Forest ◽  
Point Of View ◽  
Type I ◽  
Growth Rings ◽  
Ecological Wood Anatomy ◽  
Thin Walls ◽  
Vessel Elements ◽  
Bosque Mesófilo De Montaña ◽  
Perforation Plates ◽  
Long Fibers

In order to investigate trends in ecological wood anatomy of a cloud forest, 29 tree species from Ocuilan, State of Mexico, were studied. The results suggest that the homogeneous climate of the area determines the absence of growth rings for most species; also, a narrow relationship was observed between rings and the phytogeographic origin of taxa. With respect to the remaining anatomical characters, there is a high percentage of wood with diffuse porosity; also, medium and long vessel elements are common, with small diameters and scalariform perforation plates, along with long fibers with thin walls, of libriform type, or fibrotracheids in which septs may be present or not; axial parenchym is scarce and rays are heterogeneous, of type I. These characters are discussed from an ecological and evolutionary point of view.

Sign in / Sign up

Export Citation Format

Share Document