Showing papers in "Botanical Review in 2002"

Acclimation and adaptive responses of woody plants to environmental stresses

Abstract: The predominant emphasis on harmful effects of environmental stresses on growth of woody plants has obscured some very beneficial effects of such stresses. Slowly increasing stresses may induce physiological adjustment that protects plants from the growth inhibition and/or injury that follow when environmental stresses are abruptly imposed. In addition, short exposures of woody plants to extreme environmental conditions at critical times in their development often improve growth. Furthermore, maintaining harvested seedlings and plant products at very low temperatures extends their longevity. Drought tolerance: Seedlings previously exposed to water stress often undergo less inhibition of growth and other processes following transplanting than do seedlings not previously exposed to such stress. Controlled wetting and drying cycles often promote early budset, dormancy, and drought tolerance. In many species increased drought tolerance following such cycles is associated with osmotic adjustment that ...

Phylogenetic Classification of Ericaceae: Molecular and Morphological Evidence

Abstract: A new classification of Ericaceae is presented based on phylogenetic analyses of nuclear and chloroplast DNA sequence data, morphology, anatomy, and embryology. Eight subfamilies and 20 tribes are recognized. In this classification Epacridaceae are included as Styphelioideae and Empetraceae as tribe Empetreae within the Ericoideae. The herbaceous taxa previously recognized as Pyrolaceae and Monotropaceae by some authors are also included within Ericaceae, in the subfamily Monotropoideae. A key, morphological descriptions, and representative images are provided for all named groups. Two new combinations inKalmia (K. buxifolia andK. procumbens) are made, and three new taxa are described: Oligarrheneae, Richeeae, and Cosmelieae (all within Styphelioideae).

Aluminum Hyperaccumulation in Angiosperms: A Review of Its Phylogenetic Significance

Abstract: Aluminum phytotoxicity and genetically based aluminum resistance has been studied intensively during recent decades because aluminum toxicity is often the primary factor limiting crop productivity on acid soils. Plants that grow on soils with high aluminum concentrations employ three basic strategies to deal with aluminum stress. While excluders effectively prevent aluminum from entering their aerial parts over a broad range of aluminum concentration in the soil, hyperaccumulators take up aluminum in their aboveground tissues in quantities above 1000 ppm; that is, far exceeding those present in the soil or in the nonaccumulating species growing nearby. In between these two extremes are indicator species, representing intermediate responses. A list of aluminum hyperaccumulators in angiosperms is compiled on the basis of data in the literature. Aluminum hyperaccumulators include mainly woody, perennial taxa from tropical regions. Recent molecular phylogenies are used to evaluate the systematic and ...

Observations on the Biogeography of the Amotape-Huancabamba Zone in Northern Peru

Abstract: Some scientists have suggested that the Huancabamba Depression in northern Peru—i.e., the partial interruption of the Andean chain by the Rio Chamaya drainage system—represents a major biogeographical barrier to montane taxa. Others have suggested that the Amotape-Huancabamba Zone in the Andes of northern Peru and the extreme south of Ecuador is an area of particular biological diversity and possibly a phytogeographical zone in its own right. The phytogeography of this area is investigated here with data mainly from the Loasaceae, supplemented by data on other plant and animal groups and by some new data from Passiflora L. (Passifloraceae) and Ribes L. (Grossulariaceae). The Huancabamba Depression itself does not seem to have been a major dispersal barrier for these groups. However, a phytogeographical zone—the Amotape-Huancabamba Zone—between the Rio Jubones system in Ecuador and the Rio Chamaya system in Peru can be recognized from the available data. This zone seems to be home to numerous ende...

Plant Evolution and Endemism in Andean South America: An Introduction

Abstract: Andean South America, including the adjacent lowland environments, can be evaluated in reference to the patterns and processes that characterize plant diversity, evolution, and distribution. Although its ecological complexity is bewildering and the evolutionary and geological history is convoluted and poorly understood, progress can be made by testing the relationship of known processes and paleoevents to patterns of diversification and distribution.Plant diversity patterns can be quantified and mapped in order to permit the study of linkages to environmental parameters and to past speciation and extinction processes. Such studies show the importance of dispersal barriers and long altitudinal gradients for the evolution of Andean plants. Phylogenetic studies allow for the tying of these processes to the timing of connections from the Andes to adjacent tropical forests, grasslands, and deserts, to other highlands in South America, or to other continents. They can also reveal temporal relationships among a variety of plant lineages, allowing for the identification of basal groups, of paleoendemics, and of the recently derived neoendemics. The special places in South America that have high representation of these restricted-range taxa can be better understood as a result. In the Andean context, these are often located in isolated habitat islands, with moisture regimes ranging from arid to perhumid.These patterns allow the development of conservation actions that respond to the presence of special places for plant diversification and of special species that require immediate attention. Further research will include the documentation of patterns at ever-finer spatial resolutions, to better match our biodiversity databases with the topographical and ecological features found in South America. The phylogenetics of plant molecular and morphological characters provide a necessary evolutionary framework that can then be compared to processes identified as important among animal and fungi lineages. For Andean South America, coevolution of plant and animal species is an important source of additional complexity, while trends of evolution to occupy drier and/or higher environments appear in numerous lineages. Anthropogenic influences on these patterns and processes are little understood, but humans have affected and will continue to shape the composition, diversity, and geography of South American biota.

Diversity, adaptation, and endemism in neotropical Ericaceae: biogeographical patterns in the Vaccinieae

Abstract: In the Neotropics, the Ericaceae are an Andean-centered family, adapted to moist, open, cool montane environments. Overall species richness increases nearer the Equator, with the highest species numbers concentrated in Colombia and Ecuador between 1000 m and 3000 m. There are 46 genera (70% endemic) and about 800 species (ca. 94% endemic) of Ericaceae native to the Neotropics. Five biogeographical regions are recognized for the neotropical Ericaceae, with the greatest species diversity found in the Andes of northwestern South America. Following Pliocene/Pleistocene mountain-building and climatic events, neotropical Ericaceae underwent dynamic speciation and extensive adaptive radiation due to their ecological and life-form plasticity, colonization abilities, adaptation to epiphytic habits, and coevolution with hummingbirds. Given high diversity and singularity within neotropical Ericaceae, along with high levels of habitat alteration, protection of Andean montane ecosystems should become a priority for the conservation of Ericaceae in the Neotropics.

Assessing Patterns of Plant Endemism in Neotropical Uplands

Abstract: Conservation of biodiversity will necessitate choices among areas, taxa, and land-use patterns. Lack of data on distribution and pattern in biodiversity makes these difficult decisions even more problematic for those charged with the conservation and sustainable use of the diversity of life. Quantitative methods have promise in helping with this task in that they allow people to make their values explicit, and they also allow representation and comparison of many different types of data. In this article I examine patterns of species richness and range-size rarity, or endemism, in the Neotropics with a data set from the genus Solanum (Solanaceae). Distribution data for 180 species of forest-dwelling solanums were analyzed. Patterns of species richness, range-size rarity (endemism), and several area-selection methods were examined. Montane areas are relatively rich both in all species and in endemic species, with maximal peaks in the Andes. The peak of species richness coincides with the domain (i....

The Phenomenon of Photoinhibition of Photosynthesis and Its Importance in Reforestation

Abstract: Photoinhibition, defined as the inhibition of photosynthesis caused by excessive radiance, affects field production to a great extent. This phenomenon is particularly relevant in reforestation practices, when one deals with forests of rapid growth such asEucalyptus. The imposition of additional stress factors during exposure to high radiance increases the potential for photoinhibitory effects, so the inhibition of photosynthesis indicates that the plant is submitted to stressful conditions. Photoinhibition can be reversible, playing a protective role for the photosynthetic systems, but it can also reflect damage that has already occurred in the photosynthetic apparatus, being irreversible in this case. In this review, we present the physiological and molecular mechanisms of photoinhibition and discuss the interaction between light and other stress factors and its effects on plants destined for reforestation. In addition, the present work analyzes some of the features and strategies that help plants avoid or restrict the occurrence of photoinhibition. For instance, pigments and enzymes which naturally occur in plants can prevent photoinhibition, while preadaptation to nonideal conditions can enhance tolerance to a certain stress factor. Most of these morphological, metabolic, and biochemical mechanisms of defense are related to the dissipation of excessive energy such as heat. Understanding these mechanisms can help improve cultivation procedures, avoid the plants’ death, and increase productivity in the field.

Comparative stem anatomy in the subfamily Cactoideae

Abstract: Basic anatomical features of Cactaceae have been studied since the sixteenth century. This anatomical research has focused on selected features related to different external forms or on stem photosynthetic metabolism. Anatomical stem features, however, have rarely been taken into consideration in systematic studies. Recent work has focused on the subfamily Cactoideae because it is the largest and most diverse subfamily of Cactaceae. Molecular analyses support the monophyly of Cactoideae, but tribal and generic relationships are mostly unresolved. A major goal of this study was to synthesize the available information about anatomical stem features of Cactoideae and to evaluate their usefulness in phylogenetic analysis. Although dermal and vascular tissues have been studied for nearly 350 species of Cactoideae, comprehensive investigations are needed for most members of specific genera or tribes. Phylogenetic analysis based on structural data (morphology and anatomy) showed that the subfamily Cactoideae is monophyletic. This result supports molecular evidence and corroborates that highly reduced leaves are the synapomorphy of this clade. With the exception of Cacteae and Rhipsalideae, the tribes are not monophyletic. The morphological characters that have been used to define the tribes are not synapomorphies and have evolved independently in different lineages. Some anatomical features are unique characters that distinguish terminal taxa; for example, silica grains in dermal and hypodermal cells inStenocereus, prismatic crystals in dermal and hypodermal cells ofNeobuxbaumia, and lack of medullary bundles in members of Cacteae. Most anatomical features, however, behave in a highly homoplasious manner in the analysis of the subfamily. Other studies at the tribal or generic level show that anatomical features are informative and contribute to support different clades. Further studies of Cactoideae, at different taxonomic levels, that include anatomical features, are needed in order to understand their evolution.

Morphology and Angiosperm Systematics in the Molecular Era

Abstract: Several ways in which morphology is used in systematic and evolutionary research in angiosperms are shown and illustrated with examples: 1) searches for special structural similarities, which can be used to find hints for hitherto unrecognized relationships in groups with unresolved phylogenetic position; 2) cladistic studies based on morphology and combined morphological and molecular analyses; 3) comparative morphological studies in new, morphologically puzzling clades derived from molecular studies; 4) studies of morphological character evolution, unusual evolutionary directions, and evolutionary lability based on molecular studies; and 5) studies of organ evolution. Conclusions: Goals of comparative morphology have shifted in the present molecular era. Morphology no longer plays the primary role in phylogenetic studies. However, new opportunities for morphology are opening up that were not present in the premolecular era: 1) phylogenetic studies with combined molecular and morphological analyses; 2) reconstruction of the evolution of morphological features based on molecularly derived cladograms; 3) refined analysis of morphological features induced by inconsistencies of previous molecular and molecular phylogenetic analyses; 4) better understanding of morphological features by judgment in a wider biological context; 5) increased potential for including fossils in morphological analyses; and 6) exploration of the evolution of morphological traits by integration of comparative structural and molecular developmental genetic aspects (Evo-Devo); this field is still in its infancy in botany; its advancement is one of the major goals of evolutionary botany.

Environmental patterns and ecological correlates of range size among bromeliad communities of Andean Forests in Bolivia

Abstract: The abiotic, historical, and autecological factors determining the range sizes of tropical plant species and the distribution of endemism are still poorly understood. In this study, the variation of range-size rarity was analyzed among the bromeliad communities of 74 forest sites in the Bolivian Andes and adjacent lowlands with respect to 14 environmental factors reflecting mostly climatic conditions and to species attributes such as life-form, ecophysiological type, pollination mode, and fruit type. The global ranges of all 192 recorded bromeliad species were mapped on a 1° grid, quantified as the number of 1° grids occupied by a species, and range-size rarity indices were calculated as the mean inverse range size of all species at a given study site.

Reconstruction of the Biogeographical History of Malesherbiaceae

Abstract: Malesherbiaceae are xerophytic plants of Chile, Peru, and Argentina. The 24 species of the only genus,Malesherbia, live in a variety of arid habitats in the Pacific coastal desert and adjacent Andes of Peru, Chile, and neighboring Argentina. Taxa with distributions in both Peru and Chile are rare; for this reason the family provides an excellent case study for the biogeography of this region of western South America.

Phylogeny, Morphology, and Biogeography of Chuquiraga, an Andean-Patagonian Genus of Asteraceae-Barnadesioideae

Abstract: Chuquiraga is a genus of 23 species of evergreen shrubs endemic to South America. It is distributed principally along the Andes from Colombia to Chile and Argentina, and it is especially diversified in the Central Andes and in the deserts and semideserts of southern South America. The genus exhibits a wide array of leaf-morphology types and two different head and floral types apparently related to hummingbird and insect pollination.

Unique Floral Structures and Iterative Evolutionary Themes in Asparagales: Insights from a Morphological Cladistic Analysis

Abstract: A morphological cladistic analysis is presented of the lilioid order Asparagales, with emphasis on relationships within the “lower” asparagoids, in the context of recent new data on both floral and vegetative structures. The analysis retrieved a monophyletic “lower” asparagoid clade, in contrast to molecular analyses, in which lower asparagoids invariably form a grade. However, limited outgroup sampling in the current analysis is a significant factor in this “inside-out” topology; if the morphological tree is rerooted with Orchidaceae as the outgroup, the result is a topology broadly similar to the molecular one. The relatively low resolution of the “lower” asparagoid clade identified here is a result of high homoplasy in several characters, which could be regarded as iterative evolutionary themes within Asparagales, notably (among floral characters) epigyny and zygomorphy. Close relationships between some family pairs were inferred, including Orchidaceae and Hypoxidaceae, Boryaceae and Blandford...

Biogeography of the Oxalis tuberosa Alliance

Abstract: The Oxalis tuberosa alliance is a group of morphologically similar Oxalis species allied to the Andean tuber crop oca, O. tuberosa. Originally described by cytologists as a dozen species sharing a base chromosome number rare in Oxalis (x = 8), the alliance as defined here includes additional species for which cytological information is not yet available but which are supported as members on molecular and/or morphological grounds. The alliance includes members found in the Andean region from Venezuela to northern Argentina, with one species at high elevations in Central America. They occur from the high Andean steppes (paramo and puna) to the cloud forests of middle elevations and include both restricted endemics and variable widespread species complexes. Geographical and altitudinal distributions of members of the alliance and selected Oxalis species outside the alliance were compared with a combined phylogenetic analysis of DNA sequence data of ITS and ncpGS (chloroplast-expressed glutamine synt...

Geographical Variation and Successive Adaptive Radiations of Yellow-Flowered Teucrium (Labiatae) in the Mediterranean Region

Abstract: Study of the geographical variation of yellow-flowered Teucrium sect. Polium species using morphological, chemical, and cytological analyses shows that the group of North African taxa is both differentiated from the European group and homogeneous with it. It displays stable vegetative and floral characters that are common to all the taxa. The essential differences concern the indumentum structure and the habit of the plants. The diversity of environments has enhanced the expression of successive radiations of the group. The first doubtless originated in the Betic-Rif zone and in particular in the southeastern part of the Iberian Peninsula. These radiations probably first gave the group T. aureum, now endemic in the Ibero-Provencal mountains. The species then became better differentiated in North Africa. Differentiation took place in the mountain ranges (Rif, Atlas, and Hoggar) and some Mediterranean islands (off the eastern coast of Tunisia) for the current species with narrow endemism and in des...

Leaf Anatomical Characters and Their Value in Understanding Morphoclines in the Araceae

Abstract: Leaf anatomy and petiole anatomy of the Araceae are discussed in terms of their potential use as character states in a phylogenetic analysis. The characters include leaf venation and structure, leaf epidermis, mesophyll ground tissue, vascular bundles, sclerenchyma, collenchyma, laticifers, secretory ducts, and raphide crystals. Characters that seem to have the greatest potential for use in phylogenetic analysis include those of ground tissue, vascular bundles, fibers, trichosclereids, collenchyma, and laticifers. Other, equally distinguishable, characters have states that are apparently autapomorphies, providing little phylogenetic signal. Therefore, although most leaf and petiole structural variation is useful diagnostically, some characters will probably be less valuable in phylogenetic analysis than originally hoped.

On the Phylogenetic Position of the New Caledonian Endemic Families Paracryphiaceae, Oncothecaceae, and Strasburgeriaceae: A Comparison of Molecules and Morphology

Abstract: Following his collecting trips to New Caledonia in 1979 and 1981, William C. Dickison published a series of papers focused on the anatomy, morphology, and systematic relationships of the monogeneric, endemic families Strasburgeriaceae, Oncothecaceae, and Paracryphiaceae. He and his collaborators concluded thatParacryphia, Oncotheca, andStrasburgeria should each be treated as distinct families positioned near Sphenostemonaceae, Theaceae, and Ochnaceae, respectively. These anatomical data proved to be a valuable source of systematic characters, but the precise phylogenetic positions of these enigmatic families continue to be in doubt. In fact, even the ordinal classification of flowering plants published by the Angiosperm Phylogeny Group (APG, 1998) left uncertain the position of two of these three families. More recently, however, phylogenies for eudicots based on multiple-gene data sets firmly place Oncothecaceae within Garryales, a position that has never been suggested previously. In the case of Paracryphiaceae, molecular data support the most often cited, historical placement of the family within Dipsacales. New molecular data presented here support the position of Strasburgeriaceae as sister to Ixerbaceae within Crossosomatales. This is one of several historical placements suggested for the family, but a placement that has not been cited in recent years. A comparison of anatomy/morphology betweenStrasburgeria andIxerba is presented in the context of this molecular phylogenetic hypothesis.

The significance of the Northern Andes for lichens

Abstract: Evaluation of the lichen flora of the Northern Andes must be based on a restricted number of better-known groups, probably less than 25% of the flora. This is because our knowledge of the taxonomy and distribution of lichens in the Tropics is still very incomplete. In the Andes, the groups with foliose and fruticose growth forms are particularly well represented; the crustose group seems less important. This is in contrast with the surrounding lowlands, where crustose is the dominant growth form. At higher taxonomic levels there is a resemblance in taxonomic composition with the cooler zones of the world, which disappears at the generic or sectional levels. A conspicuous morphological feature is the frequency of foliose lichens with linear, rhizinate, or ciliate lobes, probably an adaptation to very humid conditions. More than half of the species have a wide distribution throughout the Tropics or at least in the Neotropics. Among the more restricted taxa is a humid montane element. At the highest...

Ornamentation of Isoetes (Isoetaceae, Lycophyta) Microspores

Abstract: More than any other taxonomic character, megaspores have been used in the genusIsoetes (known by the English common name of “quillwort”), despite the fallacy of a single-character taxonomy. Microspores, on the other hand, have been largely neglected in taxonomic schemes. Like megaspores, terms for microspore ornamentation (also known as “sculpturing”) have not been standardized. I examined microspore ornamentation, including both macroornamentation and microornamentation, of 52 taxa from Africa, Asia, Australasia, Europe, North America, and South America with the scanning electron microscope. Macroornamentation is discernible with light microscopy; microornamentation requires scanning electron microscopy. Ornately sculptured spores were much more frequent than were laevigate or psilate patterns: 21 taxa had an echinate pattern; 19 had an aculeate pattern; 6 were cristate; 5 were psilate; and 1 was laevigate. The proximal and distal ridges and surfaces may vary in both the type and density of ornamentation. Distinct macroornamentation patterns characterize certain species groups. Microornamentation types include granulate, bacillate, fimbriate, and filamentose: of the microspores I examined, virtually all were partially granulate; 11 were bacillate; 4 were fimbriate; and 1 was filamentose. Based on this limited sampling, species with a higher ploidy level often have larger microspores, but no clear relationship between microspore ornamentation and ploidy level was established, nor were any geographical or ecological trends clear. Like megaspores, microspore ornamentation is strongly convergent. Although microspores are often attached to megaspores, the role of spore ornamentation in coordinated dispersal remains unclear.

Sieve-element plastids and evolution of monocotyledons, with emphasis on Melanthiaceae sensu lato and Aristolochiaceae-Asaroideae, a putative dicotyledon sister group

Abstract: Monocotyledons are distinguishable from dicotyledons by their subtype P2 sieve-element plastids containing cuneate protein crystals, a synapomorphic character uniformly present from basal groups through Lilioids to Commelinoids. The dicotyledon genera Asarum and Saruma (Aristolochiaceae-Asaroideae) are the only other taxa with cuneate crystals, but their sieve-element plastids include an additional large polygonal crystal, as is typical of many eumagnoliids. New investigations in Melanthiaceae s.l. revealed the same pattern (polygonal plus cuneate crystals) in the sieve-elementplastids of Japonolirion osense (Japonoliriaceae/Petrosaviaceae), of Harperocalfsflava, Pleea tenuifolia, and Tofieldia (all: Tofieldiaceae). In Narthecium ossifragum a large crystal, present in addition to cuneate ones, usually breaks up into several small crystals, whereas in Aletris glabra and Lophiola americana (Nartheciaceae) and in all of the 15 species studied and belonging to Melanthiaceae s.str. only cuneate crysta...

William Campbell Dickison: A Biographical Tribute and Bibliography

Abstract: William Campbell Dickison, professor of biology at the University of North Carolina at Chapel Hill and internationally noted plant anatomist and morphologist, died on 22 November 1999. This tribute chronicles his life journey and elucidates his accomplishments in and contributions to botany. William Campbell Dickison (Fig. 1) was a plant anatomist and morphologist of international distinction. His life journey took him to the Gulfport-Biloxi, Mississippi, region, to Des Plaines and Macomb, Illinois, to the Bloomington campus of Indiana University, to the deserts of Arizona, to the mountains of Virginia, and finally to the North Carolina college town of Chapel Hill. He was influenced by experiences in each of these settings. This biographical tribute greatly expands on insights of BilI's life and accomplishments given by Gensel (2000), Wheeler (2000), White (2000), and Burk (2001). Even though William C. Dickison was weakened by his long battle against bonemarrow cancer, he was reading final page ...