SPACING OF PARENCHYMA BANDS IN WOOD OF CARYA GLABRA (MILL.) SWEET,PIGNUT HICKORY,AS AN INDICATOR OF GROWTH RATE AND CLIMATIC FACTORS

Variations in the spacing of concentric, tangential bands of apotracheal axial wood parenchyma cells in the annual growth rings of Carya glabra (Mill.) Sweet constitute a record of changes in radial growth rate and of fluctuations in climatic factors. This relationship was determined from trees that were growing under moisture stress and consequently had highly consistent ring-width patterns from tree to tree. Band spacing decreased across a growth ring and was generally greater in wide than in narrow rings. Thus, the proportion of xylem cross-sectional area occupied by axial parenchyma tissue was inversely related to ring width. Average numbers of bands in each of 67 years were analyzed relative to ring widths. Years in which bands were unusually numerous relative to ring width were years of low April-May precipitation, leading to slow spring growth and closely spaced bands early in the growing season. Years in which band numbers were unusually low relative to ring width were years of high April-May precipitation, leading to rapid growth and widely spaced bands early in the season; low July precipitation in these years apparently curtailed growth before much of the typical late-season wood, with its closely spaced bands, could form. Parenchyma bands were aggregated within some rings, suggesting that a slowing of growth had been followed by a growth spurt. Evidence for a late-season spurt was that rings with aggregations were significantly wider than rings formed the same year and not having aggregations of bands. The number of vessels per unit of cross-sectional area was inversely related to ring width.     

ANOMALOUS GROWTH AND VEGETATIVE ANATOMY OF SIMMONDSIA CHINENSIS

The anatomy of the stem, root, and leaf of Simmondsia chinensis (Link) Schneider was investigated, as well as the mode of tissue formation in the stem. Perivascular tissue is present as part of the primary body; outermost cell layers of this tissue mature as a fibrous sheath. The first short-lived extrafascicular cambium is generated within the remaining parenchymatous perivascular tissue. Successive independent extrafascicular cambia, organized as complete rings or large arcs, arise within peripheral conjunctive parenchyma produced by previous cambia. Extrafascicular cambia produce secondary xylem centripetally and conjunctive tissue bands and strands of secondary phloem centrifugally. Conjunctive tissue initials produce raylike structures of conjunctive tissue; true vascular rays are absent. The phellogen is actually a region of transition where the peripheral conjunctive parenchyma of previous extrafascicular cambia undergoes further cellular subdivision; a true phellogen is lacking. Xylem bands do not represent annual or seasonal growth increments, and secondary growth in Simmondsia is an unequivocal example of the “concentric” anomaly.     

海桑次生木质部导管解剖特征与土壤理化因子年内动态变化的关系研究

为揭示海桑次生木质部导管解剖特征随土壤理化因子年内动态变动而变化的适应机制,该研究利用海桑具有生长轮的特点,通过显微技术界定了海桑采样枝条一年内10个不同连续时间段形成的新"生长层"(新形成的次生木质部),观测了10个不同连续时间段新"生长层"的导管解剖特征,并对10个新"生长层"形成阶段所对应的土壤理化因子数量特征进行了测定,用逐步回归法分析了10个不同连续时间段海桑新"生长层"管孔数量解剖特征与对应土壤理化因子数量特征之间的关系。结果显示:(1)10个不同连续时间段海桑形成新"生长层"管孔数量特征指标,除相邻管孔间接触壁长占比无显著差异外,其他8项指标包括管孔径向直径、管孔弦向直径、导管壁厚、导管长度、管孔密度、单孔率、导管聚合度和相邻管孔间接触壁长等均具有显著差异(P0.05);多重比较显示,10个不同连续时间段海桑形成新"生长层"管孔数量特征8项指标具不同程度的变动。(2)海桑新"生长层"形成阶段(10个不同连续时间段)土壤理化因子,包括土壤有机质含量、土壤全氮含量、土壤全磷含量、土壤pH值和土壤全盐量等5项指标均具有显著差异(P0.05);多重比较显示,海桑新"生长层"形成阶段(10个不同连续时间段)土壤理化因子指标均具有不同程度变动。(3)10个不同连续时间段海桑形成新"生长层"的管孔数量解剖特征,与所对应新"生长层"形成阶段土壤理化因子数量特征的逐步回归分析表明,随着土壤全盐含量的升高,海桑导管弦向直径和导管聚合度同时呈显著增大趋势(P0.05)。研究表明,海桑在一年内不同连续时间段,随土壤全盐量增加,土壤渗透势将增大,水分在次生木质部导管中输导的安全性将下降,而海桑导管分子随一年内不同连续时间段土壤全盐量的增加呈增大趋势,根据木材生态解剖学的观点,水分输导的安全性将进一步降低,但导管聚合度随一年内不同连续时间段土壤全盐量的增加而增大,具有增进水分输导安全性的作用,这可能是海桑对土壤盐含量变化的生态适应策略。     

VARIATION IN VESSEL LENGTH AND DIAMETER IN STEMS OF SIX TROPICAL AND SUBTROPICAL LIANAS

Within-species and within-stem variation in vessel diameter and total vessel length were examined using the latex paint method on six species of tropical and subtropical lianas (woody vines). Narrow vessels were almost always rather short, but wide vessels ranged from short to long. Within Pithecoctenium crucigerum, larger diameter stems tended to have longer as well as wider vessels, with a maximum vessel length and width of 6.25 m and 366 μm, respectively. Within stems of Saritaea magnifica, P. crucigerum, Hippocratea volubilis, and Vitis rotundifolia, narrow vessels had lower mean, median, and maximum vessel lengths than wide vessels. Vessels with intermediate diameters tended to have intermediate lengths. In Stigmaphyllon ellipticum and Bauhinia fassoglensis the outer system of secondary xylem tended to have longer as well as wider vessels than the inner system. Those narrow vessels (<50 μm) that did occur in the outer system were short (<0.20 m), and were similar in length and diameter to those of the inner system.     

Annual tree rings revealed by radiocarbon dating in seasonally flooded forest of the Mapire River,a tributary of the lower Orinoco River,Venezuela

The occurrence of seasonal growth rings in the wood of Campsiandra laurifolia, Acosmiun nitens, Pouteria orinocoensis and Psidium ovatifolium, common species growing in the flooding forest of the Mapire river, was analyzed using wood anatomy and ring- width analysis. The test of the annual ring formation was performed using radiocarbon analysis based on the nuclear weapon effect. All species showed growth rings visible to the naked eye. The ring boundaries in all cases were marked by bands of marginal parenchyma. The index ring-width curves of the four studied species showed a strong relationship with the fluctuation of the water river level during the non flooded months, suggesting that an increase in the water level during these months positively influenced the growth indicating that the rings were formed on an annual basis. The content of radiocarbon in the wood of anatomically predated rings of Campsiandra laurifolia and Pouteria orinocoensis confirm these results. All studied trees are slow growing with less than 2.5 mm annual increment.     

牛膝根的结构发育与三萜皂苷积累的关系

应用植物解剖学、组织化学定位及植物化学技术,研究了不同发育时期牛膝根的结构特征与三帖皂苷积累的关系。结果表明:牛膝根的初生结构和次生结构类似于一般双子叶植物,其根的加粗主要是由于三生结构的发生和分化。第一圈额外形成层产生于次生韧皮部外侧的薄壁组织细胞和射线细胞,以后的每一圈由前一圈向外衍生的薄壁组织细胞产生。额外形成层无纺锤状原始细胞和射线原始细胞之分,在切向纵切面上呈叠生排列。三生维管束以离心方式排成整齐的同心环状,由薄壁结合组织将其彼此分开,其圈数与额外形成层的圈数是一致的,随着根的个体发育而不断增加。在根的初生结构中,三萜皂苷主要分布于中柱鞘、初生韧皮部及初生韧皮部和初生木质部之间的薄壁组织细胞内;在根的次生结构中,主要分布于次生韧皮部及栓内层的薄壁组织细胞内。当三生结构形成后,除次生韧皮部及栓内层细胞外,在额外形成层和三生维管束韧皮部细胞内均有皂苷类物质积累。三生结构在牛膝根中占主要地位,是三萜皂苷积累与分布的主要场所。在牛膝根的生长发育过程中,三萜皂苷元齐墩果酸的百分含量呈“S”型曲线增长,其根的增长、加粗、三生维管束圈数、三萜皂苷总量及根中干重的积累量都在出苗后约120天达到高峰,此时应为牛膝根的最佳采收期。     

Radial secondary growth and formation of successive cambia and their products in Ipomoea hederifolia L. (Convolvulaceae)

Ipomoea hederifolia stems increase in thickness using a combination of different types of cambial variant, such as the discontinuous concentric rings of cambia, the development of included phloem, the reverse orientation of discontinuous cambial segments, the internal phloem, the formation of secondary xylem and phloem from the internal cambium, and differentiation of cork in the pith. After primary growth, the first ring of cambium arises between the external primary phloem and primary xylem, producing secondary phloem centrifugally and secondary xylem centripetally. The stem becomes lobed, flat, undulating, or irregular in shape as a result of the formation of both discontinuous and continuous concentric rings of cambia. As the formation of secondary xylem is greater in one region than in another, this results in the formation of a grooved stem. Successive cambia formed after the first ring are of two distinct functional types: (1) functionally normal successive cambia that divide to form secondary xylem centripetally and secondary phloem centrifugally, like other dicotyledons that show successive rings, and (2) abnormal cambia with reverse orientation. The former type of successive rings originates from the parenchyma cells located outside the phloem produced by previous cambium. The latter type of cambium develops from the conjunctive tissue located at the base of the secondary xylem formed by functionally normal cambia. This cambium is functionally inverted, producing secondary xylem centrifugally and secondary phloem centripetally. In later secondary growth, xylem parenchyma situated deep inside the secondary xylem undergoes de‐differentiation, and re‐differentiates into included phloem islands in secondary xylem. © 2008 The Linnean Society of London, Botanical Journal of the Linnean Society, 2008, 158 , 30–40.     

Real-time analyses of chloroplast and mitochondrial division and differences in the behavior of their dividing rings during contraction

The time courses of chloroplast and mitochondrial division and the morphological changes in the plastid-dividing ring (PD ring) and mitochondrion-dividing ring (MD ring) during chloroplast and mitochondrial division were studied in Cyanidioschyzon merolae De Luca, Taddei and Varano. To accomplish this, chloroplast and cell division of living cells were continuously video-recorded under light microscopy, and the morphological changes in the PD and MD rings were analyzed quantitatively and three-dimensionally by transmission electron microscopy (TEM). Under the light microscope, the diameters of the chloroplast and the cell decreased at uniform velocities, the speed depending on the temperature. To study in detail the sequential morphological change of the mitochondrion in M phase and the contractile mechanism in the divisional planes of the chloroplast and the mitochondrion, we observed the PD and MD rings, which are believed to promote contraction, under TEM, using the diameter of the chloroplast as an index of the time. Three PD rings (an outer PD ring on the cytoplasmic face of the outer envelope, a middle PD ring in the intermembrane space, and an inner PD ring on the stromal face of the inner envelope) were clearly observed, but only the outer MD ring could be observed. The PD ring started to contract soon after it formed, while the contraction of the MD ring did not occur immediately after formation, but was delayed until the contraction of the PD ring was almost complete. Once the MD ring began to contract, the rate of decrease of its circumference was 4 times as high as that of the PD ring. As the outer PD and MD rings contracted, they grew thicker and maintained a constant volume, while the thickness of the inner PD ring did not change and its volume decreased at a constant rate with contraction. In the early stage of contraction, the widths of the three PD rings increased in order, from the outer to the inner ring. With contraction, their widths changed at different rates until they came to have much the same width. In cross-section, the MD ring was wider where it was next to the chloroplast than at the opposite side, adjacent to the nucleus in the early stage of contraction. By the late stage, the widths of the two sides became equal. In our observations, the microbody elongated along the outer MD ring and touched the outer PD ring during contraction of the PD and MD rings. These results clearly revealed differences between the mode of contraction of the outer, middle, and inner PD rings, and between the PD and the MD rings. They also revealed the coordinated widening of the three PD rings, and suggested that the microbody plays a role in the contraction of the PD and MD rings. Received: 1 July 1998 / Accepted: 1 September 1998     

STUDIES IN THE DYNAMICS OF HISTOGENESIS : I. TENSION OF DIFFERENTIAL GROWTH AS A STIMULUS TO MYOGENESIS.

1. The region of most active mitosis per mm. of cross-section in the intestine is the entodermal epithelial tube. The mitotic figures primarily follow the path of a right-handed helix. In one of the twenty embryos the mitotic figures describe the path of a right-handed helix. 2. The region of least active or relatively passive growth per mm. of cross-section is the mesenchyme, derived from the splanchnic mesoderm surrounding the epithelial tube. 3. The rapid expansion, due to epithelial growth in a rotating spiral manner, of the intestinal lumen is greater than the activity manifest in the surrounding mesenchyme. This causes a pressure in the latter resulting in a flattening and elongation of the mesenchymal cells. The successive changes in shape of these cells through the spherical, ellipsoidal, and spindle cellular phases are seen. The mesenchymal wall decreases in thickness, due to tension caused by epithelial tubular dilation. 4. The rotating spiral growth of the epithelial cells causes the formation of a series of mesenchymal cellular and fibrillar concentric rings due to the centripetal force of the former. 5. The circular, smooth muscle cells are differentiated in the outer, more condensed margins of the ring. At these points the developing tensional stresses are greater than within the ring. 6. The inner circular smooth muscle coat is the first one differentiated and is incident to the rapid growth of the epithelial tube in diameter. The former soon tends to restrict the growth of the epithelial tube in diameter. The tube, pursuing the lines of least resistance, grows in length. During the period of rapid growth in length the outer longitudinal muscle coat is in the process of formation. 7. The tensional stresses to which the elongated strained mesenchymal cells are subjected appear to be a dynamic stimulus to smooth muscle differentiation. 8. From this study of a closely graded and progressive series of sections of intestinal development, the conclusion is drawn that muscle tissue is not self-differentiating, in the strict sense of the term, but that the tension of differential growth acts as the stimulus to smooth muscle differentiation.     

DEVELOPMENT AND STRUCTURE OF THE VASCULAR CONNECTION BETWEEN THE PRIMARY AND SECONDARY ROOT OF GLYCINE MAX (L.) MERR.

The primary vascular connection between primary and secondary root of Glycine max (L.) Merr. was derived from stelar parenchyma and pericycle. Inner stelar parenchyma, associated with the parent metaxylem and outer stelar parenchyma adjacent to the pericycle, were resonsible for the histogenesis of the primary xylem connection. Acropetal maturation of the diarch xylem connection occurred after the lateral root emerged from the parent root. Development of tetrarchy occurred distal to the diarch xylem connection. The concentric primary phloem connection was derived from the pericycle and outer stelar parenchyma. Acropetal maturation of the primary phloem connection occurred prior to lateral root emergence from the parent root. Secondary growth quickly augmented the primary vascular connection. A substantial amount of mature secondary xylem formed prior to maturation of the secondary phloem. The structure of the primary and secondary vascular connections is described.     

A cytoskeletal basis for wood formation in angiosperm trees: the involvement of cortical microtubules

Rearrangements of cortical microtubules (CMTs) during the differentiation of axial secondary xylem elements within taproots and shoots of Aesculus hippocastanum L. (horse-chestnut) are described. A correlative approach was employed using indirect immunofluorescence microscopy of α-tubulin in 6- to 10-μm sections and transmission electron microscopy of ultrathin sections. All cell types – fibres, vessel elements and axial parenchyma – derive from fusiform cambial cells which contain randomly oriented CMTs. At the early stages of development, fibres and axial parenchyma cells possess helically arranged CMTs, which increase in number as secondary wall thickening proceeds and simple pits develop. In contrast, incipient vessel elements are distinguished by the marking out of sites of bordered pits; these sites first appear as microtubule-free regions within the reticulum of randomly oriented CMTs that characterises their precursor fusiform cambial cells. Subsequently, the ring of CMTs which develops at the periphery of the microtubule-free region decreases in diameter as the over-arching pit border is formed. Like bordered pits, large-diameter, non-bordered pits (contact pits) which develop between vessel elements and adjacent contact ray cells originate as microtubule-free regions and are also associated with development of a ring of CMTs at the periphery. In the case of contact pits, however, there is no reduction in the diameter of the CMT ring during pit development. Tertiary cell wall thickenings are also a feature of vessel elements and appear to form at sites where bands of laterally associated, transversely oriented CMTs, separated from each other by microtubule-free zones, are found. Later, these bands of CMTs become narrower, and separate into pairs of microtubule bundles located on each side of the developing wall thickening. Development of perforations between vessel elements is also associated with the presence of a ring of CMTs at their periphery. Received: 13 July 1998 / Accepted: 30 November 1998     

Comparative analysis of annual rings of perennial forbs in the Loess Plateau,China

Although recent studies have demonstrated that annual growth rings are present among perennial forbs species at high northern latitudes, little is known about whether there are demarcated growth rings of perennial forbs in the Loess Plateau of China where plant growth is strongly limited by dry climate conditions and severe soil erosion. In this study, we collected the main roots of 11 perennial forbs species along the precipitation gradient in the Loess Plateau, and analyzed the growth rings in the secondary root xylem. We found that ten species showed distinct annual growth rings, and the anatomical patterns, including vessel size and density, varied considerably among different families. Our results suggest, for forbs species in the Loess Plateau, that vessel diameter in the root xylem was strongly correlated with growth rate of the forb’s roots. Ring widths of the forbs showed a significant declining trend, reflecting the deteriorating signal of growth condition with age. In comparison to other families, forb species of Fabaceae usually have the evidently larger vessels that link directly to higher hydraulic capacity and growth rate. In terms of annual ring width patterns, this study provides an applicable approach to detecting effects of limited climatic conditions and life history strategies on herbaceous vegetation in the Loess Plateau.     

不同生境下蓝桉的木材解剖研究

用光镜及扫描电镜对不同生境下的蓝桉（Ｅｕｃａｌｙｐｔｕｓｇｌｏｂｕｌｕｓ Ｌａｂｉｌｌ．）木材结构进行了解剖学观察,描述了木材结构特征。以蓝桉木材的１１ 个主要特征——导管频率、单孔率、导管直径、导管分子长度、管胞长度和直径、纤维管胞长度和直径、纤维长度、射线频率和高度为指标,对生长在不同生境下的蓝桉进行比较发现：随着纬度的增加,生长轮变化不明显;木材中大部分组成分子的数量特征,除导管频率有降低趋势外均与纬度成正相关。评述了年降雨量对蓝桉木材结构的影响     

Tree demography dominates long‐term growth trends inferred from tree rings

Understanding responses of forests to increasing CO₂ and temperature is an important challenge, but no easy task. Tree rings are increasingly used to study such responses. In a recent study, van der Sleen et al. (2014) Nature Geoscience, 8, 4 used tree rings from 12 tropical tree species and find that despite increases in intrinsic water use efficiency, no growth stimulation is observed. This challenges the idea that increasing CO₂ would stimulate growth. Unfortunately, tree ring analysis can be plagued by biases, resulting in spurious growth trends. While their study evaluated several biases, it does not account for all. In particular, one bias may have seriously affected their results. Several of the species have recruitment patterns, which are not uniform, but clustered around one specific year. This results in spurious negative growth trends if growth rates are calculated in fixed size classes, as ‘fast‐growing’ trees reach the sampling diameter earlier compared to slow growers and thus fast growth rates tend to have earlier calendar dates. We assessed the effect of this ‘nonuniform age bias’ on observed growth trends and find that van der Sleen's conclusions of a lack of growth stimulation do not hold. Growth trends are – at least partially – driven by underlying recruitment or age distributions. Species with more clustered age distributions show more negative growth trends, and simulations to estimate the effect of species’ age distributions show growth trends close to those observed. Re‐evaluation of the growth data and correction for the bias result in significant positive growth trends of 1–2% per decade for the full period, and 3–7% since 1950. These observations, however, should be taken cautiously as multiple biases affect these trend estimates. In all, our results highlight that tree ring studies of long‐term growth trends can be strongly influenced by biases if demographic processes are not carefully accounted for.     

PRESENCE OF VESSELS IN WOOD OF SARCANDRA (CHLORANTHACEAE); COMMENTS ON VESSEL ORIGINS IN ANGIOSPERMS

Sarcandra is the only genus of Chloranthaceae hitherto thought to be vesselless. Study of liquid-preserved material of S. glabra revealed that in root secondary xylem some tracheary elements are wider in diameter and have markedly scalariform end walls combined with circular pits on lateral walls. Examination of these wider tracheary elements with scanning electron microscope (SEM) demonstrated various degrees of pit membrane absence in the end walls. Commonly a few threadlike fibrils traverse the pits (perforations); these as well as intact nature of pit membranes in pits at ends of some perforation plates are evidence that lack of pit membranes does not result from damage during processing. Some perforations lack any remnants of pit membranes. Although perforation plates and therefore vessels are present in Sarcandra roots, no perforations were observed in tracheary elements of stems or lignotubers. Further, stem tracheids do not have the prominently scalariform end walls that the vessel elements in roots do. Presence of vessels in Sarcandra removes at least one (probably several) hypothetical events of vessel origin that must be postulated to account for known patterns of vessel distribution in angiosperms, assuming that they are primitively vesselless. Seven (perhaps fewer) vessel origin events in angiosperms could account for these patterns; two of those events (Nelumbo and monocotyledons) are different from the others in nature. Widely accepted data on trends of vessel specialization in woody dicotyledons yield an unappreciated implication: vessel specialization has happened in a highly polyphyletic manner in dicotyledons, and therefore multiple vessel origins represent a logical extension backward in time. If a group of vesselless dictyoledons ancestral to other angiosperms existed, they can be hypothesized to have had a relatively homogeneous floral plan now that Sarcandra-like plants no longer need be imagined within that group. Sarcandra and other Chloranthaceae show that the borderline between vessel absence and presence is less sharp than generally appreciated.     

大关杨树皮的形成与季节变化的关系

大关杨的输导韧皮部限于当年新生的次生韧皮部。４月中旬至５月中旬大量出现,７月底停止发育。其成熟筛分子中具一细胞核,以后才消失。前一个生长季产生的筛管变形,故二个生长季的韧皮部蛤限明显。韧皮纤维出现迟,呈切向束状分布。含晶细胞分布于纤维束两侧。木栓形成层５月中旬开始活动,７月进入发育高峰。     

Osservazioni Anatomiche Su Alyssum Leucadeum Guss

Summary

Alyssum leucadeum Guss. is an endemic Apulian chamephyte, growing on rocks; material collected at Santa Maria di Leuca has been studied anatomically and the following observations have been made.

In the basal thick woody stem the sclerenchimatic tissue is well developed, and is divided up, by parenchima, in many bands which are normally disposed in regular concentric rings while in some cases a single band can be separated by the parenchimatic tissue into «islands» forming tangential rows.

A few tubes are to be found in the sclerenchimatic bands but in very small number compared with the tubes observed in the parenchima. At times a sclerenchimatic band can be connected to the next one towards the outside through radial sclerenchimatic strands, making the stem more resistant mechanically.

The parenchimatic bands interposed between the sclerenchimatic ones are composed of parenchima cells rich in starch. Starch consumption proceeds from the inside towards the outside and the outer bands are richer in starch. Inside the parenchima bands are islands of conducting tissue: the tubes being neither numerous nor large, as is to be expected in a xeromorphic plant. The islands of conducting tissue are sometimes surrounded by a sclerenchimatic sheath.

The alternate succession of concentric rings of soft and hard tissue, together with the arrangement of the conducting elements in isolated groups inside the soft tissue, the groups being sometimes surrounded by a mechanical sheath, show that the stem is provided with great plasticity, is able to shape itself according to the space it finds in the rocks, and can undergo deformations, compressions, etc. An even greater plasticity can be obtained if necessary by resolving the sclerenchimatic bands in several smaller islands. Such a structure, apart from the width of tubes lumina, recalls somehow the secondary structure of certain lianas where the succession of soft and hard tissues gives a great plasticity to the stem.

The structure of the root is similar to that of the stem, the parenchimatic bands being thicker in the radial direction and having cells completely packed with starch.

Alyssum leucadeum is therefore a rock plant with a well defined anatomical constitution and particularly adapted to its habitat. It is a xeromorphic plant, with small tubes, rich in sclerenchimatic and reserve stisues, defended against transpiration by a complex covering of hairs, utilising the winter-spring season for its growth, and the summer as its resting period. Such an annual rithm shows the oriental affinities of this species while the presence of endogenous buds and of a thick layer of cork are other characteristics of plants particularly adapted to a rocky habitat.     

Plastid-dividing Rings in Ferns

Plastid-dividing rings (PDs) are described for the first timein the ferns Ophioglossum, Gleichenia, Hymenophyllum, Trichomanes,Athyrium, Dryopteris, Ceratopteris and Pteridium. They are foundin the constricted isthmuses of undifferentiated plastids, amyloplasts,amylochloroplasts and chloroplasts in gametophytes and in arange of sporophytic tissues including apices, differentiatingleaf mesophyll and vascular parenchyma from roots, stems andleaves. Fern PDs comprise two concentric structures; a densegranular ring 60-100 nm wide adhering to the stromal face ofthe constriction and a smaller cytoplasmic annulus only 20-40nm wide. The diameters of the PD-containing constrictions, particularlythose in vascular parenchyma, where the outer component is usuallylacking, are extremely uniform (means of 177-188 nm in differentspecies and tissues) and closely in line with those in angiosperms.PDs in ferns differ from those previously described in othergroups of lands plants in that they are far more persistentand in multilobed plastids one is present at each constriction.The occurrence of multiple PDs in the giant plastids found inup to 30% of vascular parenchyma cells may be associated withorganelle fusion rather than division.Copyright 1993, 1999 AcademicPress Chloroplast division, division cycle, ferns, plastid-dividing rings, pteridophytes, transmission electron microscopy