CO<Subscript>2</Subscript> enrichment increases element concentrations in grass mixtures by changing species abundances

Atmospheric carbon dioxide (CO₂) enrichment may increase plant growth more than the uptake of chemical elements from soil. Increased CO₂ also may alter element levels in biomass from multi-species vegetation by changing plant species abundances. We measured concentrations of ten elements in aboveground tissues of three C₄ grasses that had been exposed for 2–3 growing seasons to a continuous gradient in CO₂ from 250 to 500 μmol mol⁻¹. The grasses, Bouteloua curtipendula, Schizachyrium scoparium, and Sorghastrum nutans, are competitive dominants in assemblages of tallgrass prairie vegetation growing on each of three soil types along a field CO₂ gradient in central Texas, USA. Our objective was to determine whether CO₂ influences element concentrations in grass mixtures by changing concentrations in individual species or shifting species abundances. Increased CO₂ had little effect on element concentrations in grasses compared to differences observed among grass species and soils. Increasing CO₂ from the pre-Industrial to elevated levels reduced the phosphorus concentration in grasses grown on a clay and sandy loam soil. Concentrations of most other elements did not respond to CO₂ treatment. Cover of the mid-grass Bouteloua declined at higher CO₂ levels as cover of the taller grass Sorghastrum increased. Concentrations of several elements were lower in Bouteloua than Sorghastrum; hence, this exchange of species at higher CO₂ increased element concentrations in grass assemblages. Potential consequences include an improvement in the nutritional quality of plants for herbivores. Results highlight the underappreciated impact that CO₂ enrichment may have on ecosystem functioning by changing plant composition.     

COMPARATIVE ANATOMY OF SOME PARENTS AND HYBRIDS OF THE HAWAIIAN MADIINAE (ASTERACEAE)

Comparative leaf morphology and anatomy was examined in five species and four hybrids involving three genera of Hawaiian Madiinae (Asteraceae). The comparisons included Argyroxiphium grayanum, Dubautia ciliolata subsp. ciliolata, D. knudsenii subsp. knudsenii, D. scabra subsp. leiophylla, D. scabra subsp. scabra, and Wilkesia gymnoxiphium, and the hybrids A. grayanum × D. scabra subsp. leiophylla, D. ciliolata subsp. ciliolata × D. scabra subsp. scabra, D. knudsenii subsp. knudsenii × D. scabra subsp. leiophylla, and W. gymnoxiphium × D. scabra subsp. leiophylla. Foliar morphology, leaf tissue organization, and various characters of stomata and trichomes were compared, using epidermal peels, cross and paradermal sections, and clearings of leaves. Pronounced anatomical differences among these closely related taxa were characterized, and effects of hybridization on the expression of anatomical features were documented. Most comparisons of parents and hybrids revealed statistically significant differences in leaf size, distribution of adaxial and abaxial stomata, and marginal and surface trichomes. In most instances hybrids demonstrated intermediate status in their foliar characters, indicating that these features are inherited from both parents. However, differences in foliar characters were usually of sufficient magnitude to allow recognition of hybrids as well as parents.     

Morphology of female genital tracts in Dasypodidae (Xenarthra,Mammalia): a comparative survey

Previous works about comparative spermatology in Dasypodidae determined that sperm morphology is a striking variable among genera. It was suggested that this sperm feature may be related to specific morphologies of the female reproductive tract. The present comparative study of the morphology of the female genital tract from seven species corresponding to six genera of Dasypodidae is aimed to determine the main similarities and differences between the species and to establish a possible correlation with the sperm shapes and sizes. Genital tracts were studied macroscopically and histologically. Dasypus hybridus has disk-shaped ovaries and the cortex occupies almost all the organ with a single oocyte in each follicle. Tolypeutes matacus, Chaetophractus villosus, Chaetophractus vellerosus, Zaedyus pichiy, Cabassous chacoensis and Clamyphorus truncatus possess ovoid and elongated ovaries, with both longitudinally polarized cortex and medulla, and the peculiar presence of several oocytes in the same follicle. D. hybridus and T. matacus have a simple pear-shaped uterus, but in the other species the uterus is pyramid shaped and bicornuate. The uterine cervix is very long in all studied species. Only T. matacus presents a true vagina as in most eutherian mammals; on the other hand, in the other species a urogenital sinus is observed. The structure of female reproductive tracts in Dasypodidae contains a mixture of assumedly primary and other derived features. According to the different morphologies of the regions analyzed, a classification of the female genital tracts in three groups can be performed (group 1: Dasypus; group 2: Tolypeutes; group 3: Chaetophractus, Zaedyus, Cabassous, Clamyphorus) and a correlation between each group and a specific sperm morphology can be established.     

Feedback from plant species change amplifies CO2 enhancement of grassland productivity

Dynamic global vegetation models simulate feedbacks of vegetation change on ecosystem processes, but direct, experimental evidence for feedbacks that result from atmospheric CO₂ enrichment is rare. We hypothesized that feedbacks from species change would amplify the initial CO₂ stimulation of aboveground net primary productivity (ANPP) of tallgrass prairie communities. Communities of perennial forb and C₄ grass species were grown for 5 years along a field CO₂ gradient (250–500 μL L^?1) in central Texas USA on each of three soil types, including upland and lowland clay soils and a sandy soil. CO₂ enrichment increased community ANPP by 0–117% among years and soils and increased the contribution of the tallgrass species Sorghastrum nutans (Indian grass) to community ANPP on each of the three soil types. CO₂‐induced changes in ANPP and Sorghastrum abundance were linked. The slope of ANPP‐CO₂ regressions increased between initial and final years on the two clay soils because of a positive feedback from the increase in Sorghastrum fraction. This feedback accounted for 30–60% of the CO₂‐mediated increase in ANPP on the upland and lowland clay soils during the final 3 years and 1 year of the experiment, respectively. By contrast, species change had little influence on the ANPP‐CO₂ response on the sandy soil, possibly because Sorghastrum increased largely at the expense of a functionally similar C₄ grass species. By favoring a mesic C₄ tall grass, CO₂ enrichment approximately doubled the initial enhancement of community ANPP on two clay soils. The CO₂‐stimulation of grassland productivity may be significantly underestimated if feedbacks from plant community change are not considered.     

Mitochondrial DNA sequence variation of four <Emphasis Type="Italic">Saccharina</Emphasis> species (Laminariales,Phaeophyceae) growing in Japan

The complete mitochondrial DNA (mtDNA) was sequenced for four Saccharina species including three varieties of Saccharina japonica in Hokkaido: S. japonica; S. japonica var. religiosa; S. japonica var. ochotensis; S. japonica var. diabolica; Saccharina longipedalis; Saccharina angustata; and Saccharina coriacea. Furthermore, the structure and the sequence were compared among them. The total nucleotide length was 37,500–37,657 bp. All mtDNAs were mapped and no differences in the organization of the coding region were found. From the total alignment of S. japonica including the three varieties and S. longipedalis, nucleotide substitutions were detected at 68 sites, and a nucleotide insertion/deletion was detected at one site on rps19 for the whole genome. Variable regions useful for varieties distinction of S. japonica were trnI, trnM, rps19, ORF41, and seven spacers. The pairwise distance between S. japonica, S. angustata, and S. coraiacea was 0.000–0.116. Sequencing comparisons of rps7, rps11, rpl5, and tatC were thought to be useful tools for discrimination and phylogenetic analysis of Saccharina species having similar morphologies.     

Distance-dependence in herbivory and foliar condition for juvenile Shorea trees in Bornean dipterocarp rain forest

We assessed density- and distance-dependence in herbivore effects and juvenile condition for four species of Shorea, the most speciose genus in the dominant canopy family of southeast Asian rain forest trees (Dipterocarpaceae). Herbivore damage was quantified as partial leaf loss on young leaves, and whole plant foliar condition as the product of the fraction of leaf nodes containing leaves and the fraction of tissue remaining on extant leaves. Adults of the four species were centers of high total, as well as conspecific, density of juveniles (<1 m tall). For two species, S. hopeifolia and S. pinanga, herbivore damage declined significantly with distance, decreasing by 40% and 51% respectively, between 5 m and 35 m from the parent. For the same two species, foliar condition improved significantly between 5 m and 35 m, increasing by 45% for S. hopeifolia and 24% for S. pinanga. If foliar condition influences juvenile survival and growth, more widely dispersed seeds of these species are more likely to recruit to the canopy. In contrast, there was no significant distance-dependence for S. parvifolia or S. longisperma. Among species, herbivore damage was greatest in those species with greatest local juvenile abundances, i.e., those with highest densities, leaf size, juvenile foliar mass and/ or foliar mass/m² ground area, but was unrelated to the toughness of mature leaves. However, distance was a better predictor of herbivore damage than was conspecific juvenile density, as evaluated by backward elimination regressions, for both S. hopeifolia and S. pinanga. For foliar condition, the best predictor was distance for S. pinanga, but conspecific density for S. hopeifolia, whose juveniles were smallest and occurred at the highest densities. Total juvenile density (all woody plants) was eliminated as a factor in all cases. The species-specificity of effects (i.e., their dependence on conspecific distance or density), together with the marked differences among congeneric species, caution against generalizations regarding distance-dependent effects in diverse forests. Received: 21 April 1998 / Accepted: 8 July 1998     

A COMPARATIVE ANALYSIS OF MORPHOLOGICAL VARIATION PATTERNS IN THE PAPIONINS

Comparative studies of intraspecific variation patterns are important in attempts to reconstruct the differential selection pressures experienced by related species and in assessing the resultant observed interspecific variation. Reconstruction of past selection depends on an assumption of relatively stable patterns of genetic variance and covariance through time and across related species. Models by Lande (1979) and Turelli (1988a, 1988b) lead to contrasting expectations of stability versus lability of variation patterns, respectively, at least for closely related species. I report on a comparative study of phenotypic variance and correlation patterns in seven species of papionins, including macaques, baboons, and mangabeys, in order to determine the stability of variation patterns in this group. The three-dimensional coordinates of 12 bony landmarks on the face were used in a finite-element scaling analysis in order to measure local size variation at each landmark. Variances and correlations for these local size metrics were calculated using pooled sex-specific values. Variation patterns were compared across species using vector and matrix correlations in combination with various randomization-based significance tests. Patterns of variation and correlation were generally quite similar across the seven species, although some differences were also apparent. The overall magnitude of correlation is also similar among species, as only a few interspecific comparisons showed significant differences. Thus, it is concluded that patterns of variation and correlation in facial morphology have tended to remain stable in this group of primates. This result should allow for reconstruction of past differential selection pressures in the clade. The pattern of similarity among correlation structures for these species showed no association with their phylogenetic relationships.     

Stictis s. lat. (Ostropales, Ascomycota) in northern Scandinavia, with a key and notes on morphological variation in relation to lifestyle

The closely related genera Carestiella, Schizoxylon and Stictis (Stictidaceae, Ostropales, Ascomycota) are revised in northern Scandinavia, and a revised phylogenetic hypothesis, including all seven species of this group in the area, is presented. A key to the species of Stictis s. lat. (including Carestiella, Schizoxylon and Stictis) in Northern Scandinavia is presented. S. albescens and S. confusum are described as new to science, and the new name S. brunnescens is introduced for S. mollis ssp. populorum, when treated as a distinct species. C. socia and S. albescens are the only representatives of their genera in northern Scandinavia, but a total of five species of Stictis are present in the area (S. brunnescens, S. confusum, S. mollis, S. populorum and S. radiata). Substantial within-species variation in ascoma morphology and wall pigmentation is revealed and discussed, and found to correlate with fungal lifestyles; optional lichenization apparently affects several details in fungal anatomy and morphology.     

Taxonomic reappraisal on<Emphasis Type="Italic">Suaeda australis</Emphasis> (Chenopodiaceae) in korea based on the morphological and molecular characteristics

We used morphological and molecular characteristics to perform a taxonomic reappraisal ofSuaeda australis (Brown) Moquin-Tandon from Korea. Populations of this species are dispersed at the bottoms of sand zones, and usually exhibit a depressed habit. Except for their total heights and leaf lengths, the morphology of these plants does not differ from that ofS. maritima. Molecular traits were examined based on ITS and psbB-psbH spacer region sequences. The former region included ITS-1, 5.8S, and ITS-2, which were 629 nucleotide bases long. Pair-wise distances (p-distance) among KoreanSuaeda species ranged from 1.12 to 17.84. The psbB-psbH spacer region sequences were 618 nucleotide bases long, and were conserved in the alignment of KoreanSuaeda species. In our ML and MrBayesian analysis of ITS sequences aligned with other sequences from GenBank, the plants of KoreanSuaeda made three clades: 1)S. japonica;S. australis, andS. maritima;2)S. malacosperma; and 3) S.glauca. However, the psbB-psbH region sequences could not be resolved amongS. japonica, S. maritima, andS. australis from Korea. Molecular and vegetative characteristics indicated that the plants now classified asS. australis from Korea should instead be named as S.maritima (L.) Dumont.     

养猪微生物发酵床芽胞杆菌空间分布多样性

了解微生物发酵床大栏养猪垫料中的芽胞杆菌多样性和空间分布规律,为微生物发酵床管理、芽胞杆菌新资源挖掘及菌剂开发奠定基础。将发酵床划分为32个方格(4行×8列),采用五点取样法获得每个方格的样品。采用可培养法从32份样品中分离芽胞杆菌菌株,利用16S rRNA基因序列初步鉴定所分离获得的芽胞杆菌种类。利用聚集度指标和回归分析法,分析芽胞杆菌的样方空间分布型。通过Shannon-Wiener多样性指数、Simpson优势度指数、Hill指数及丰富度指数分析,揭示微生物发酵床中芽胞杆菌的空间分布多样性。从32份样品中共获得芽胞杆菌452株,16S rRNA基因鉴定结果表明它们分别隶属于芽胞杆菌纲的2个科、8个属、48个种。其中,种类最多的为芽胞杆菌属(Bacillus),30种;赖氨酸芽胞杆菌属(Lysinibacillus),6种;类芽胞杆菌属(Paenibacillus),5种;短芽胞杆菌属(Brevibacillus),3种;鸟氨酸芽胞杆菌属(Ornithinibacillus)、大洋芽胞杆菌属(Oceanibacillus)、少盐芽胞杆菌属(Paucisalibacillus)和纤细芽胞杆菌属(Gracilibacillus)各1个种。芽胞杆菌种类在发酵床空间分布差异很大,根据其空间出现频次,可分为广分布种类,如地衣芽胞杆菌(Bacillus licheniformis);寡分布种类,如根际芽胞杆菌(B.rhizosphaerae);少分布种类,如弯曲芽胞杆菌(B.flexus)。依据其数量,可分为高含量组优势种群,如地衣芽胞杆菌(B.licheniformis);中含量组常见种群,耐盐赖氨酸芽胞杆菌(Lysinibacillus halotolerans);寡含量组寡见种群,如根际芽胞杆菌(B.rhizosphaerae);低含量组偶见种群,如土地芽胞杆菌(B.humi)。空间分布型聚集度和回归分析测定表明,芽胞杆菌在微生物发酵床的分布类型为聚集分布。微生物发酵床垫料中芽胞杆菌种类总含量高达4.41×108个/g,其种类含量范围为0.01—94.1×106个/g(均值为8.96×106个/g),丰富度指数(D)、优势度指数(λ)、Shannon-Wiener指数(H')和均匀度指数(J')分别为0.4928、0.2634、1.3589和0.9803,其中香农指数最大的单个芽胞杆菌种类为地衣芽胞杆菌(B.licheniformis)。根据芽胞杆菌种类多样性指数聚类分析,当欧式距离λ=17时,可分为高丰富度高含量和低丰富度低含量类型。微生物发酵床的芽胞杆菌种类丰富、数量高,是一个天然的菌剂"发酵罐",有望直接作为微生物菌剂,应用于土壤改良、作物病害防控、污染治理等领域。     

Photosynthesizing Tissue Development in C4 Cotyledons of Two Salsola Species (Chenopodiaceae)

The quantitative anatomy of developing cotyledons of NAD-malic enzyme species Salsola incanescens and NADP-malic enzyme species S. paulsenii (Chenopodiaceae) was studied. S. incanescens belongs to the group of species with foliar type of seedling development characterized by slowly growing cotyledons and a rosette form at juvenility. The rosette is the consequence of fast leaf formation, which was correlated with a low rate of leaf growth. S. paulsenii belongs to the group with the cotyledonous type of seedling development. A high growth rate of cotyledons, slow leaf formation, and absence of the rosette characterize this type. Slow leaf formation was correlated with a high rate of leaf growth. The Kranz–anatomy in cotyledons of S. incanescens (atriplicoid type) and S. paulsenii (salsoloid type) determines the duration of cotyledon development proceeding for 15 days after seed germination. The rate of growth changes during the developmental period was correlated with the type of seedling development. Cotyledons of a foliar species S. incanescens exhibit 2 to 5 times slower growth changes in cotyledon area, width, thickness, volume of mesophyll and bundle sheath cells, and number of chloroplasts per bundle sheath cell than the cotyledons of a cotyledonous species S. paulsenii. During cotyledon development in both species, the number of chloroplasts per mesophyll cell remained unchanged, and developmental changes in the bundle sheath occurred at higher rate than in mesophyll cells. Thus, these two indices seem to be independent of the type of Kranz–anatomy. The presence of atriplicoid type cotyledons in the species with salsoloid structure of true leaves might indicate a close genetic relationship between these two patterns of Kranz-anatomy.     

Productivity and Subordinate Species Response to Dominant Grass Species and Seed Source during Restoration

Grasses can be important regulators of species diversity and ecosystem processes in prairie systems. Although C₄ grasses are usually assumed to be ecologically similar because they are in the same functional group, there may be important differences among species or between seed sources that could impact restorations. I tested whether C₄ grass species identity, seed source, or grass species richness scales to influence aboveground net primary productivity (ANPP), resistance to weed invasion, or establishment of subordinate prairie species during restoration. Plots in western Iowa, United States, were planted with equal‐sized transplants of one of five common grass species (Panicum virgatum L., Sorghastrum nutans (L.) Nash, Andropogon gerardii Vitman, Schizachyrium scoparium (Michx.) Nash, and Bouteloua curtipendula (Michx.) Torrey) either from local seed or from cultivar seed sources. These plots were compared to plots containing all five species in mixture and to nonplanted plots. Differences in ANPP were found among species but not between cultivars and noncultivars or between monocultures and mixtures. Panicum virgatum, S. nutans, and S. scoparium were more productive than A. gerardii and B. curtipendula. Weed invasion was much higher when plots were not planted with grasses. Schizachyrium scoparium allowed greater establishment of subordinant prairie species than all other focal grass species. There were two separate mechanisms by which grasses suppressed prairie species establishment either (1) by growing tall and capturing light or (2) by quickly filling in bare space by spreading horizontally through rhizome growth in short species. These results suggest that high ANPP can be found with noncultivar plantings during the first 2 years after planting and that subordinate species establishment is most likely when shorter bunchgrasses such as S. scoparium are dominant.     

A NEW SPECIES AND NEW SECTIONS OF RHIPIDOCLADUM (POACEAE: BAMBUSOIDEAE)

Rhipidocladum longispiculatum, a woody bamboo from the montane forests of Colombia, is described and illustrated. A classification of Rhipidocladum into three sections is proposed based on differences in internode structure, culm leaves, fimbriae of the foliage leaf sheaths, inflorescences, spikelet bracts, and foliar anatomy and micromorphology. Rhipidocladum section Rhipidocladum is distinguished by the zigzag rachis of the inflorescence and obtuse spikelet bracts, and includes only one species, R. harmonicum. Section Didymogonyx is characterized by alternating long and short internodes, and includes R. longispiculatum and R. geminatum. Section Racemiflorum is distinguished by its relatively long culm leaf blades, racemiform inflorescences, and mucronate or aristate spikelet bracts; the remainder of the species of the genus are classified within this section. A review of morphology, foliar anatomy, and micromorphology of the Arthrostylidiinae, the subtribe to which Rhipidocladum belongs, is presented. The problem of generic classification within the subtribe is discussed with respect to its mosaic pattern of morphological and anatomical variation.     

A new species of Sorghastrum (Poaceae) from Isla Socorro, Colima, Mexico

A new species ofSorghastrum,S. pohlianum, from Mexico is described and illustrated. A numerical analysis comparing the new species to the closest species (S. nutans andS. nudipes) was undertaken. The first three principal components explain 84% of the variation of the taxa involved. In addition there is morphological evidence to distinguish the new species from its closest relatives. It differs fromS. nutans by showing smaller inflorescences, having sterile lemmas and anthers, and having somewhat smaller but wider blades and different flowering periods. In addition, it is distinguished fromS. nudipes due to the presence of auricles > 1 mm long and inflorescence branches bearing spikelets along their entire length.     

Genetic and morphological diversity of mouse lemurs (Microcebus spp.) in northern Madagascar: The discovery of a putative new species?

Tropical forests harbor extremely high levels of biological diversity and are quickly disappearing. Despite the increasingly recognized high rate of habitat loss, it is expected that new species will be discovered as more effort is put to document tropical biodiversity. Exploring under‐studied regions is particularly urgent if we consider the rapid changes in habitat due to anthropogenic activities. Madagascar is known for its extraordinary biological diversity and endemicity. It is also threatened by habitat loss and fragmentation. It holds more than 100 endemic primate species (lemurs). Among these, Microcebus (mouse lemurs) is one of the more diverse genera. We sampled mouse lemurs from several sites across northern Madagascar, including forests never sampled before. We obtained morphological data from 99 Microcebus individuals; we extracted DNA from tissue samples of 42 individuals and amplified two mitochondrial loci (cytb and cox2) commonly used for species identification. Our findings update the distribution of three species (Microcebus tavaratra, Microcebus arnholdi, and Microcebus mamiratra), including a major increase in the distribution area of M. arnholdi. We also report the discovery of a new Microcebus lineage genetically related to M. arnholdi. Several complementary approaches suggest that the newly identified Microcebus lineage might correspond to a new putative species, to be confirmed or rejected with additional data. In addition, morphological analyses showed (a) clear phenotypic differences between M. tavaratra and M. arnholdi, but no clear differences between the new Microcebus lineage and the sister species M. arnholdi; and (b) a significant correlation between climatic variables and morphology, suggesting a possible relationship between species identity, morphology, and environment. By integrating morphological, climatic, genetic, and spatial data of two northern Microcebus species, we show that the spatial distribution of forest‐dwelling species may be used as a proxy to reconstruct the past spatial changes in forest cover and vegetation type.     

MOLECULAR PHYLOGENETICS OF CALYCADENIA (COMPOSITAE) BASED ON ITS SEQUENCES OF NUCLEAR RIBOSOMAL DNA: CHROMOSOMAL AND MORPHOLOGICAL EVOLUTION REEXAMINED

Phylogenetic patterns within Calycadenia were estimated from 18–26S nuclear ribosomal DNA sequences of the internal transcribed spacer (ITS) region in 19 representatives of all species in Calycadenia, including Osmadenia (C.) tenella, and in two outgroup species. In pairwise comparisons among the Calycadenia and Osmadenia sequences, divergence ranged from 0 to 11.2% of nucleotides in ITS 1 and from 0 to 8.6% in ITS 2. Of 62 nucleotide sites with potential phylogenetic information, 51.6% were in ITS 1, 46.8% were in ITS 2, and 1.6% were in the 5.8S subunit. A highly resolved, strict consensus tree from Wagner parsimony analysis of these data agrees well with morphological and cytological evidence. This tree suggests that: 1) the monotypic Osmadenia tenella is the sister-group to Calycadenia; 2) the base chromosome number in Calycadenia is n = 7, from which other numbers were derived; 3) species with multiple T-glands on cylindrical bracts and chromosome numbers of n = 5 or 6 (or 7 in C. oppositifolia) form a monophyletic group derived from an n = 7 species similar or identical in genomic structure to C. hooveri or C. villosa; 4) C. spicata (n = 4) is the product of an independent dysploid reduction from n = 7; 5) C. multiglandulosa and C. pauciflora, sensu Keck, are not monophyletic taxa; and 6) loss of chromosomal homology between Calycadenia species, as reflected by meiotic chromosomal association in hybrids, is positively correlated with time since evolutionary divergence. These results offer little evidence of homoplasy in chromosomal and phenotypic characters in Calycadenia and provide further support for the phylogenetic utility of plant ITS sequences.     

Functional groups and patterns of organization in North American ant communities: a comparison with Australia

Ant distribution and behavioural dominance is examined at nine sites along an elevational gradient (1400–2600 m) in south eastern Arizona, in order to classify North American species according to a functional group scheme used extensively in Australia. The functional groups are then used as a basis for determining patterns of community structure along the environmental gradient, and for comparing community structure between Australia and North America. Quantitative information on species com- position was obtained from pitfall traps, and patterns of ant abundance at tuna baits were used to determine relative behavioural dominance among taxa. A total of eighty-three species from twenty-eight genera was recorded along the elevational gradient, with site species richness ranging from four (high elevation Douglas fir forest) to thirty-three (mid elevation oak–juniper woodland). There was a strong correlation between ant abundance and richness, which was not an artefact of sampling intensity. The most common ants were species of Forelius, Monomorium, Crematogaster and Pheidole at the three desert sites, species of Formica, Pheidole and Crematogaster at the three woodland sites, and species of Prenolepis and Formica at one forest site. No species were abundant at two other forest sites. The most common species in traps also tended to be the most common species at baits. In terms of behavioural dominance, highly competitive ants included species of Solenopsis, Forelius, Monomorium and Liometopum. Species of Pheidole and Crematogaster tended to be moderately competitive, whereas species of Dory- myrmex, Myrmica, Camponotus and Formica (fusca gp) had low competitive ability. On the basis of these results and on published records of other taxa, North American ants were assigned to functional groups as follows (major taxa only given here): Dominant Dolichoderinae—Forelius, Liome- topum; Subordinate Camponotini—Camponotus; Hot Climate Specialists—Pogonomyrmex, Myrmecocystus; Cold Climate Specialists—Formica (rufa, exsecta and microgyna groups), Leptothorax, Stenamma, Lasius, Prenolepis; Cryptic Species—Smithistruma, Solenopsis (subgenus Diplorhop- trum), Acanthomyops; Opportunists—Formica (fusca group), Myrmica, Paratrechina, Dorymyrmex; Generalized Myr- micinae—Pheidole, Crematogaster, Monomorium; Specialist Predators—no major taxa. Functional group composition varied systematically along the elevation gradient: Dominant Dolichoderinae, Generalized Myrà micinae and Hot Climate Specialists were predominant at desert sites; Generalized Myrmicinae and Opportunists were predominant at woodland sites; and Opportunists and Cold Climate Specialists were predominant at forest sites. These patterns are consistent with published studies from elsewhere in North America. Almost all North American taxa can be matched with what appear to be ecologically equivalent taxa in Australia, and biogeographic patterns of functional group composition are broadly similar across the two continents. The major differences are that Australian ant communities are far richer in species, and are almost always dominated by dolichoderines, particularly species of Iridomyrmex. Generalized myrmicines are subdominant to dolichoderines in Australia, but are the behaviourally dominant ants throughout the warmer parts of North America. In cool-temperate North America, species of Formica (especially rufa and exsecta groups) are behaviourally dominant, as they are throughout the Palearctic. Some major features of the North American fauna can be linked to its poor representation of Dominant Dolichoderinae, including (1) the relatively low degree of physiological, morphological and behavioural specialization of Hot Climate Specialists; (2) behavioural dominance by formicines in cool-temperate habitats; and (3) the susceptibility to invasion by behaviourally dominant species such as the imported fire ant Solenopsis invicta and the Argentine ant Linepithema humile.     

中国瓜馥木属植物叶片结构的解剖观察

采用叶片表皮离析法、扫描电镜和石蜡制片法,研究了中国分布的番荔枝科瓜馥木属19种植物叶片的形态结构。结果表明:瓜馥木属叶片形态和结构具有较多的相似性,如叶片表皮均具有2-多个细胞的单列丝状毛,表皮细胞内具有一个晶簇,气孔器均为平列型,只分布在叶片的远轴面,远轴面的表皮细胞平周壁形成一个乳突,叶片主脉的维管组织除具有正常的维管组织外,还具有一个小的副维管束等,这些特征有助于区分番荔枝科植物的属间关系,支持瓜馥木属是一个很自然的类群。但叶片表皮毛的形态及分布,表皮细胞的形状、叶肉中栅栏组织和海绵组织的结构、远轴面的乳突大小以及叶主脉维管组织的细微结构则具有种间差异。尤其有助于区分小萼瓜馥木和黑风藤、广西瓜馥木和独山瓜馥木、上思瓜馥木和东方瓜馥木等形态相似、难以区分的植物种类。该研究结果为该属的系统研究和种间正确区分提供了重要资料。