A microbiological characterization of the permafrost soil of Tit-Ary Island (Yakutia)

The microbiological composition of the soil of the unique Tit-Ary Island in the lower reaches of the Lena River has been studied in detail for the first time. The specific features of the microbial population of the cryosolic soil have been revealed, including a high number of individuals of all microbial groups (10⁴–10⁸ CFU/g), comparable to the density of microorganisms in the steppe soil of Transbaikalia, and the specific pattern of their distribution in the soil profile without a decrease in their count with depth. Oligonitrophilic bacteria were prevalent in the humic gley soil of polygonal ridged tundra; their number varied from 70 × 10³ to 330 × 10⁶ CFU/g soil.     

Feral goat home range: Influence of social class and environmental variables

The daily range of feral goats varied in relation to social class and environmental variables. Mean daily ranges for 5 social classes were: male herd, 3.52 × 10⁵ m²; female herd, 2.12 × 10⁵ m²; composite herd, 1.86 × 10⁵ m²; stayer female, 0.57 × 10⁵ m²; creche group, 0.39 × 10⁵ m². Total recorded home range was male herd 14.8 × 10⁵ m² and female herd 9.65 × 10⁵ m². Female herd daily range varied seasonally in terms of size, location and habitat utilization. Female herd daily range area was correlated significantly with number of days since rain (r = 0.412), amount of rain in the past 30 days (r = ?0.296), maximum daily temperature (r = ?0.409), and minimum daily temperature (r = ?0.523), but not with wind velocity in the morning (r = ?0.064) or afternoon (r = ?0.137).     

Impact of radioactive elements on microbial complexes in cryogenic soils of Yakutia

It has been found that microorganisms in cryogenic soils of Yakutia are resistant to the long-term impact of cesium and thorium. The number of microorganisms in the studied ecological–trophic groups does not depend on the concentrations of radioactive elements. Differences in the number of microorganisms are determined by the physicochemical conditions that are created in different horizons of the soils studied. The long-term impact of radiation (for 36 and 66 years) on microorganisms inhabiting the permafrost soils of Yakutia has developed their adaptive capacity to high concentrations of these radioactive elements.     

Trophic Structure of Amoeba Communities Near Roots of Medicago sativa After Contamination with Fuel Oil No. 6

Root exudation increases microbial activity, selecting bacterial and fungal communities that metabolize organic matter such as hydrocarbons. However, a strong contamination pulse of hydrocarbons around plant roots may reorganize the soil's microbial trophic structure toward amoebae feeding on bacteria. We conducted a microcosm experiment to elucidate the effect of Medicago sativa on the trophic structure of naked amoebae after a strong pulse of pollution (50,000 ppm of fuel oil no. 6, which is a mixture of long chains ranging from C10 to C28). Plants were seeded 24 h after contamination and species of amoebae in the microcosms were identified at 1, 30, and 60 days after pollution. Several species from three trophic groups of naked amoeba were still alive 24 h after the hydrocarbon pulse. Non-planted microcosms harbored three trophic groups after 60 days, while planted ones nourished four groups. The bacterivore group was the most diverse in all microcosms, followed by protist-eaters and omnivores. The quantity of amoebae was significantly higher (3.4×10³ organisms/g soil) in the planted pots than in the non-planted ones (1.3×10³ organisms/g soil after 30 days of pollution (P?≤?0.01). The shortest hydrocarbon chains (C10–C14) disappeared or diminished in all microcosms, and the longest ones increased in the planted ones. M. sativa thus exerted a positive effect on species richness, quantity, and the composition of amoebae trophic groups in contaminated soil. This indirect effect on bacterial predators is another key factor underlying hydrocarbon assimilation by living organisms during phytoremediation.     

川西北冷杉林恢复过程中土壤动物群落动态

为了掌握川西北冷杉林群落恢复过程中土壤动物群落的变化动态,2008年4月对川西北地区的原始冷杉林和50a冷杉林的土壤动物群落进行了调查。共捕获大型土壤动物287个,33科(类);中小型土壤动物4681个,57科(类)。50a冷杉林大型土壤动物群落的类群数和密度显著高于原始冷杉林(P<0.05);中小型土壤动物群落的类群数和密度分别显著低于(P<0.05)和高于原始林(P<0.05)。PCA排序结果表明两个不同年龄段间的大型和中小型土壤动物群落结构均存在明显差异,但大型土壤动物群落间的相似性系数小于中小型土壤动物群落,表明大型土壤动物群落的恢复速度慢于中小型土壤动物群落;且大型和中小型土壤动物群落间的Srenson相似性均低于Morisita-Horn相似性,进一步表明群落物种组成的恢复速度较慢,而优势类群及常见类群的数量恢复较快。50a冷杉林的大型和中小型土壤动物的多样性指数H、丰富度指数D和优势度指数C均高于原始冷杉林,而均匀度指数E则低于原始冷杉林,但仅大型土壤动物的丰富度指数D存在显著差异(P<0.05)。以上研究结果表明,冷杉林的恢复过程可显著提高大型土壤动物群落多样性,且土壤动物群落的组成恢复较慢,而优势类群和常见类群的个体数量恢复较快。     

The Structural and Functional State of Soil Microbiota in a Chemically Polluted Environment

The structural and functional diversity of the main ecological trophic groups of soil microorganisms in meadow soils of the Central Urals anthropogenically contaminated with heavy metals was studied. The increase in the total numbers of these microorganisms in technozems, in comparison with those in agrozems, is due to the higher abundance of iron-reducing, denitrifying, nitrogen-fixing, and sulfate-reducing bacteria, an increase in cellulolytic activity, and the dependence of these characteristics on the toxic load of the soil. A reductive structure of the microbial community with the predominance of r-strategists, which reflects earlier stages of microbiocenoses succession under soil contamination, is formed under soil pollution with heavy metals.     

Carbon Stocks in an African Woodland Landscape: Spatial Distributions and Scales of Variation

Current knowledge of Africa’s carbon (C) pools is limited despite its importance in the global C budget. To increase the understanding of C stocks in African woodlands, we asked how C stocks in soil and vegetation vary across a miombo woodland landscape and to what degree and at what scales are these stocks linked? We sampled along a 5-km transect using a cyclic sampling scheme to allow geostatistical analyses. Soil C stocks in the top 5?cm (12.1?±?0.6?Mg?C?ha^?1 (±?SE)) and 30?cm depths (40.1?±?2.5?Mg?C?ha^?1) varied significantly at scales of a few meters (autocorrelation distance 14?m in 0–5-cm and 26?m in 0–30-cm interval), and aboveground (AG) woody C stocks (20.7?±?1.8?Mg?C?ha^?1) varied significantly at kilometer scales (1,426?m). Soil textural distributions were linked to topography (r ²?=?0.54) as were large-tree AG C stocks (r ²?=?0.70). AG C stocks were constrained to an upper boundary by soil texture with greater AG C being associated with coarser textured soils. Vegetation and soil C stocks were coupled in the landscape in the top 5?cm of soil (r ²?=?0.24) but not with deeper soil C stocks, which were coupled to soil clay content (r ²?=?0.38). This study is one of the most complete transect studies in an African miombo woodland, and suggests that C stock distributions are strongly linked to topography and soil texture. To optimize sampling strategies for C stock assessments in miombo, soil C should be sampled at more than 26?m apart, and AG C should be sampled at more than 1,426?m apart in plots larger than 0.5?ha.     

Effects of long-term chlorimuron-ethyl application on the diversity and antifungal activity of soil Pseudomonas spp. in a soybean field in Northeast China

The herbicide chlorimuron-ethyl has been applied widely for weed control in farmland, especially in soybean fields in China over the past decade, but the chronic effects of this herbicide on soil microorganisms, particularly Pseudomonas spp., is not well understood. Taking a continuously cropped soybean field in the town of Fuyuan—a soybean production base of Heilongjiang Province in Northeast China—as a case study, soil samples were collected from plots having received 0-, 5-, and 10-year applications of chlorimuron-ethyl (30 g active component of chlorimuron-ethyl/ha/year) to study the abundance and diversity of Pseudomonas spp. Meanwhile, an in vitro assay was used to examine the antifungal activities of isolated Pseudomonas spp. against soil-borne pathogens (Fusarium graminearum, Fusarium oxysporum, and Rhizoctonia solani) causing soybean root rot disease. The production of siderophore, hydrogen cyanide (HCN), and lytic enzymes (cellulase, pectinase, and chitinase) by Pseudomonas spp. was also investigated. With 5- and 10- year chlorimuron-ethyl application, the numbers of soil Pseudomonas spp. decreased from 121?×?10² CFU/g dry soil in the control to 40?×?10² CFU/g dry soil and 13?×?10² CFU/g dry soil, and the Shannon index values decreased from 6.23 to 3.71 and 1.73, respectively. The numbers of antifungal Pseudomonas spp. also decreased, and the proportions of Pseudomonas spp. with antifungal activities against the different test pathogens altered. All the antifungal Pseudomonas spp. could produce siderophore and HCN but not lytic enzymes. The results suggest that long-term application of chlorimuron-ethyl in continuously cropped soybean field had negative effects on the abundance and diversity of soil Pseudomonas spp., including species with different antifungal activities against pathogens. Siderophore and HCN rather than lytic enzymes formed the antifungal metabolites of Pseudomonas spp., and the number of antifungal Pseudomonas that can produce siderophore and HCN decreased markedly under application of chlorimuron-ethyl, especially after 10-year application.     

Comparison of droplet digital PCR and quantitative real-time PCR for examining population dynamics of bacteria in soil

The newly developed droplet digital PCR (DD-PCR) has shown promise as a DNA quantification technology in medical diagnostic fields. This study evaluated the applicability of DD-PCR as a quantitative tool for soil DNA using quantitative real-time PCR (qRT-PCR) as a reference technology. Cupriavidus sp. MBT14 and Sphingopyxis sp. MD2 were used, and a primer/TaqMan probe set was designed for each (CupMBT and SphMD2, respectively). Standard curve analyses on tenfold dilution series showed that both qRT-PCR and DD-PCR exhibited excellent linearity (R ²?=?1.00) and PCR efficiency (≥92 %) across their detectable ranges. However, DD-PCR showed a tenfold greater sensitivity than qRT-PCR. MBT14 and MD2 were added to non-sterile soil at 0?~?5?×?10⁸ and 0?~?5?×?10⁷ cells per gram of soil, respectively (n?=?5). This bacterial load test indicated that DD-PCR was more sensitive and discriminating than qRT-PCR. For instance, DD-PCR showed a gradual DNA increase from 14 to 141,160 MBT14 rDNA copies μL DNA extract^?1 as the bacterial load increased, while qRT-PCR could quantify the DNA (6,432 copies μL DNA^?1) at ≥5?×?10⁵ MBT14 per gram of soil. When temporal DNA changes were monitored for 3 weeks in the amended soils, the two technologies exhibited nearly identical changes over time. Linearity tests (y?=?a?·?x) revealed excellent quantitative agreement between the two technologies (a?=?0.98, R ²?=?0.97 in the CupMBT set and a?=?0.90, R ²?=?0.94 in the SphMD2 set). These results suggest that DD-PCR is a promising tool to examine temporal dynamics of microorganisms in complex environments.     

Measuring carbon dynamics in field soils using soil spectral reflectance: prediction of maize root density, soil organic carbon and nitrogen content

This paper reports the development of a proximal sensing technique used to predict maize root density, soil carbon (C) and nitrogen (N) content from the visible and near-infrared (Vis-NIR) spectral reflectance of soil cores. Eighteen soil cores (0?C60?cm depth with a 4.6?cm diameter) were collected from two sites within a field of 90-day-old maize silage; Kairanga silt loam and Kairanga fine sandy loam (Gley Soils). At each site, three replicate soil cores were taken at 0, 15 and 30?cm distance from the row of maize plants (rows were 60?cm apart). Each soil core was sectioned at 5 depths (7.5, 15, 30, 45, and 60?cm) and soil reflectance spectra were acquired from the freshly cut surface at each depth. A 1.5?cm soil slice was taken at each surface to obtain root mass and total soil C and N reference (measured) data. Root densities decreased with depth and distance from plant and were lower in the silt loam, which had the higher total C and N contents. Calibration models, developed using partial least squares regression (PLSR) between the first derivative of soil reflectance and the reference data, were able to predict with moderate accuracy the soil profile root density (r ²?=?0.75; ratio of prediction to deviation [RPD]?=?2.03; root mean square error of cross-validation [RMSECV]?=?1.68?mg/cm³), soil% C (r ²?=?0.86; RPD?=?2.66; RMSECV?=?0.48%) and soil% N (r ²?=?0.81; RPD?=?2.32; RMSECV?=?0.05%) distribution patterns. The important wavelengths chosen by the PLSR model to predict root density were different to those chosen to predict soil C or N. In addition, predicted root densities were not strongly autocorrelated to soil C (r?=?0.60) or N (r?=?0.53) values, indicating that root density can be predicted independently from soil C. This research has identified a potential method for assessing root densities in field soils enabling study of their role in soil organic matter synthesis.     

Bacteria of the sulfur cycle in the sediments of gold mine tailings,Kuznetsk Basin,Russia

The number and diversity of culturable microorganisms involved in sulfur oxidation and sulfate reduction were investigated in the oxidized sediments of gold mine tailings, Kuznetsk Basin, Russia. The sediments had a low pH (2.4–2.8), high SO ₄ ^2? content (up to 22 g/l), and high concentrations of dissolved metals. The arsenic content was as high as 1.9 g/l. Bacterial phylogeny in microcosms was investigated by amplification of 16S rRNA gene fragments with subsequent denaturing gradient gel electrophoresis (DGGE). Spore-forming bacteria Desulfosporosinus were the only bacteria revealed for which the capacity for dissimilatory sulfate reduction is known. Strain Desulfosporosinus sp. DB was obtained in pure culture, and it was phylogenetically remote from other cultured and uncultured members of the genus. No sulfate-reducing members of the Deltaproteobacteria were detected. The Firmicutes members were the most numerous phylotypes in the microcosms, including a separate cluster with the similarity to Pelotomaculum not exceeding 94%. Acidithiobacillus ferrooxidans and A. caldus were found in anaerobic and microaerophilic microcosms. The number of sulfate reducers did not exceed 9.5 × 10² cells/ml.     

西南桦纯林与西南桦×红椎混交林碳贮量比较

用乡土树种培育优质大径材已成为南亚热带满足林产品需求和生态保护的重要途径,如何通过优化森林经营模式提高人工林生态系统碳储量已成为关注的重点.对广西凭祥伏波林场13年生西南桦纯林、12年生西南桦×红椎混交林生态系统的碳素密度、碳贮量及其分布特征进行了比较研究.结果表明:(1)西南桦与红椎不同器官碳素密度变化范围分别为481.11-600.79 g/kg和451.24-543.42 g/kg,与中国南亚热带地区其他树种的碳素密度接近.相同树种不同器官之间以及不同树种相同器官之间的碳素密度差异显著(P＜0.05).西南桦纯林与西南桦×红椎混交林灌木层的平均碳素密度分别为437.15 g/kg和436.98g/kg,混交林草本层平均碳素密度比纯林高,差异性显著(P＜0.05).西南桦纯林土壤各层碳素密度均高于西南桦×红椎混交林,但差异不显著(P＞0.05).(2)西南桦×红椎混交林乔木层碳贮量(29.144 t/hm2)略高于西南桦纯林(28.541 t/hm2),混交林生态系统碳储量(276.486 t/hm2)比纯林生态系统碳储量(305.514 t/hm2)低.西南桦纯林、西南桦×红椎混交林植被层碳贮量分别占其生态系统碳贮量的9.64％和10.58％,凋落物层分别占生态系统碳储量的0.19％和0.56％.(3)西南桦纯林和西南桦×红椎混交林土壤碳贮存主要集中在0-20cm土层,且随土层深度增加而减少.西南桦纯林土壤层(0-60cm)碳贮量(275.488 t/hm2)明显高于西南桦×红椎混交林土壤层(0-60cm)碳贮量(245.688 t/hm2),分别占其生态系统碳贮量的90.17％和88.86％.(4)西南桦×红椎混交林乔木层碳素年净固定量(2.428 t·hm-2·a-1)高于西南桦纯林乔木层碳素年净固定量(2.196 t·hm-2·a-1),表明混交林比纯林的碳固定速度快.     

Self-assembly in vitro of the 68,000 molecular weight component of the mammalian neurofilament triplet proteins into intermediate-sized filaments

The mammalian neurofilament triplet proteins (210, 160 and 68 × 10³M_r proteins) are resolved by anion exchange chromatography in the presence of urea. Upon dialysis against physiological buffers at 37 °C only the 68 × 10³M_r protein shows self-assembly into morphologically normal intermediate-sized filaments. Addition of 210 × 10³M_r protein to 68 × 10₃M_r protein leads to shorter filaments, which upon embedding reveal a rough surface and whisker-like protrusions that are not present on the smooth surface of filaments assembled from 68 × 10₃M_r protein alone. Certain emerging principles of neurofilament structure are discussed, emphasizing a possible relation between neurofilaments and other intermediate-sized filaments.     

Precursors of chloroplast ribosomal RNA in Euglena gracilis

Incorporation of ³²P into mature chloroplast rRNA species of MW 1.1 × 101 and 0.56 × 10⁶ has been followed in Euglena gracilis by pulse and pulse chase experiments. Mature rRNA species have precursors of MW 1.16 × 10⁶ ± 0.01 × 10⁶ and 0.64 × 106 ± 0.01 × 10⁶ resp. These precursors have base composition and hydridization properties similar to those of the mature, rRNA species. No evidence of a single common precursor to these molecules was found. Rifampicin did not affect the synthesis of chloroplast rRNA.     

Yeast population of the Kindo Peninsula lichens

Yeast abundance and species diversity in the lichens collected at the Kindo Peninsula (Karelia) were studied. A total of 14 lichen species analyzed belonged to the genera Bryoria, Cladonia, Hypogymnia, Icmadophila, Nephroma, Peltigera, and Ramalina. Abundance of cultured yeasts in lichens was intermediate between soil and phyllosphere. The average yeast number on lichens was ~2.5 × 10³ CFU/g, while it exceeded 8 × 10³ CFU/g on plants and reached only 1 × 10³ CFU/g in soil. Yeast population of different parts of Cladonia lichens was found to vary significantly in abundance, species diversity, and community structure. The highest yeast abundance and diversity were revealed in the growth zone. Fifteen yeast species were isolated from lichens, including 6 basidiomycetous and 9 ascomycetous ones. Unlike soils and plants, yeast population of lichens consisted mainly of ascomycetous species, with predominance of Candida sphagnicola and anamorphous yeasts of the genus Dothiora. These results show that yeasts from different taxonomic and ecological groups are a necessary component of lichens; conditions favoring the preservation and development of specific yeast communities differing from the typical soil and phyllosphere yeast complexes are formed in the lichens of northern taiga forests.     

Identification of chromosomal locations associated with tail biting and being a victim of tail-biting behaviour in the domestic pig (Sus scrofa domesticus)

The objective of this study was to identify loci associated with tail biting or being a victim of tail biting in Norwegian crossbred pigs using a genome-wide association study with PLINK case?Ccontrol analysis. DNA was extracted from hair or blood samples collected from 98 trios of crossbred pigs located across Norway. Each trio came from the same pen and consisted of one pig observed to initiate tail biting, one pig which was the victim of tail biting and a control pig which was not involved in either behaviour. DNA was genotyped using the Illumina PorcineSNP60 BeadChip whole-genome single-nucleotide polymorphism (SNP) assay. After quality assurance filtering, 53,952 SNPs remained comprising 74 animals (37 pairs) for the tail biter versus control comparison and 53,419 SNPs remained comprising 80 animals (40 pairs) for the victim of tail biting versus control comparison. An association with being a tail biter was observed on Sus scrofa chromosome 16 (SSC16; p?=?1.6?×?10^?5) and an unassigned chromosome (p?=?3.9?×?10^?5). An association with being the victim of tail biting was observed on Sus scrofa chromosomes 1 (SSC1; p?=?4.7?×?10^?5), 9 (SSC9; p?=?3.9?×?10^?5), 18 (SSC18; p?=?7?×?10^?5 for 9,602,511?bp, p?=?3.4?×?10^?5 for 9,653,881?bp and p?=?5.3?×?10^?5 for 29,577,783 bp) and an unassigned chromosome (p?=?6.1?×?10^?5). An r ²?=?0.96 and a D???=?1 between the two SNPs at 9?Mb on SSC18 indicated extremely high linkage disequilibrium, suggesting that these two markers represent a single locus. These results provide evidence of a moderate genetic association between the propensity to participate in tail-biting behaviour and the likelihood of becoming a victim of this behaviour.     

Uncovering trophic positions and food resources of soil animals using bulk natural stable isotope composition

Despite the major importance of soil biota in nutrient and energy fluxes, interactions in soil food webs are poorly understood. Here we provide an overview of recent advances in uncovering the trophic structure of soil food webs using natural variations in stable isotope ratios. We discuss approaches of application, normalization and interpretation of stable isotope ratios along with methodological pitfalls. Analysis of published data from temperate forest ecosystems is used to outline emerging concepts and perspectives in soil food web research. In contrast to aboveground and aquatic food webs, trophic fractionation at the basal level of detrital food webs is large for carbon and small for nitrogen stable isotopes. Virtually all soil animals are enriched in ¹³C as compared to plant litter. This ‘detrital shift’ likely reflects preferential uptake of ¹³C‐enriched microbial biomass and underlines the importance of microorganisms, in contrast to dead plant material, as a major food resource for the soil animal community. Soil organic matter is enriched in ¹⁵N and ¹³C relative to leaf litter. Decomposers inhabiting mineral soil layers therefore might be enriched in ¹⁵N resulting in overlap in isotope ratios between soil‐dwelling detritivores and litter‐dwelling predators. By contrast, ¹³C content varies little between detritivores in upper litter and in mineral soil, suggesting that they rely on similar basal resources, i.e. little decomposed organic matter. Comparing vertical isotope gradients in animals and in basal resources can be a valuable tool to assess trophic interactions and dynamics of organic matter in soil. As indicated by stable isotope composition, direct feeding on living plant material as well as on mycorrhizal fungi is likely rare among soil invertebrates. Plant carbon is taken up predominantly by saprotrophic microorganisms and channelled to higher trophic levels of the soil food web. However, feeding on photoautotrophic microorganisms and non‐vascular plants may play an important role in fuelling soil food webs. The trophic niche of most high‐rank animal taxa spans at least two trophic levels, implying the use of a wide range of resources. Therefore, to identify trophic species and links in food webs, low‐rank taxonomic identification is required. Despite overlap in feeding strategies, stable isotope composition of the high‐rank taxonomic groups reflects differences in trophic level and in the use of basal resources. Different taxonomic groups of predators and decomposers are likely linked to different pools of organic matter in soil, suggesting different functional roles and indicating that trophic niches in soil animal communities are phylogenetically structured. During last two decades studies using stable isotope analysis have elucidated the trophic structure of soil communities, clarified basal food resources of the soil food web and revealed links between above‐ and belowground ecosystem compartments. Extending the use of stable isotope analysis to a wider range of soil‐dwelling organisms, including microfauna, and a larger array of ecosystems provides the perspective of a comprehensive understanding of the structure and functioning of soil food webs.     

Structural polypeptides and products of late genes of bacteriophage Mu: Characterization and functional aspects

This paper describes the identification and functional role of late gene products of bacteriophage Mu, including an analysis of the structural proteins of the Mu virion.In vitro reconstitution of infectious phage particles has shown that four genes (E, D, I, J) control the formation of phage heads and that a cluster of eight genes (K, L, M, N, P, Q, R, S) controls the formation of phage tails.Sodium dodecyl sulphate/polyacrylamide gel electrophoresis of Mu polypeptides synthesized in Escherichia coli minicells infected by Mu phages carrying amber mutations in various late genes has resulted in the identification of the products of gene C (15.5 × 10³M_r); H (64 × 10³M_r); F (54 × 10³M_r); G (16 × 10³M_r); L (55 × 10³M_r); N (60 × 10³M_r); P (43 × 10³M_r) and S (56 × 10³M_r). Minicells infected with λpMu hybrid phages and deletion mutants of Mu were used to identify polypeptides encoded by the V-β region of the Mu genome. These are the products of genes V, W or R (41.5 × 10³M_r, and 45 × 10³M_r); U (20.5 × 10³M_r) and of genes located in the β region (24 × 10³M_r (gpgin) and 37 × 10³M_r (possibly gpmom)).Analytical separation of the proteins of the Mu virion revealed that it consists of a major head polypeptide with a molecular weight of 33 × 10³, a second head polypeptide of 54 × 10³ (gpF) and two major tail polypeptides with molecular weights of 55 × 10³ and 12.5 × 10³ (gpL and gpY, respectively). In addition, there are five minor components of the tail (including gpN, gpS and gpU) and approximately seven minor components of the head structure of the virion (including gpH).     

Morphology, sociality, and ecology: can morphology predict pairing behavior in coral reef fishes?

Morphology can contain valuable information about the ecological performance of reef fishes, but it has rarely been used in combination with social traits. Social behavior is known to influence the ecological role of fishes; however, the ecological basis for pairing in reef fishes is not well understood. Field observations of 2,753 individuals, in 47 species in six families of biting reef fishes (Acanthuridae, Chaetodontidae, Kyphosidae, Labridae, Pomacanthidae, Siganidae), were used in combination with six morphological measurements, to examine the morphology of fishes in different social systems. A principal components analysis of morphological traits segregated species with high proportions of pairing individuals from non-pairing species along principal component 1, explaining 40.8 % of the variation. Pairing species were characterized by large eyes, concave foreheads, pointed snouts, deep bodies, and small maximum sizes. There was a significant positive relationship between these morphological traits (i.e., scores on PC1) and the prevalence of pairing within the Chaetodontidae (r ² = 0.59; P = 0.026), Siganidae (r ² = 0.72; P = 0.004), and Acanthuridae (r ² = 0.82; P < 0.001). This was consistent when traits were corrected for phylogenetic effects. No pattern was evident in the scarine Labridae (r ² = 0.15; P = 0.17). The morphological characteristics found among pairing species suggest that pairing species share common ecological traits, including foraging for small prey items in micro-topographically complex environments such as reef crevices. These ecological traits may have played a role in the evolution of pairing behavior and subsequently led to the development of reproductive patterns based on monogamy.     

Effect of 24-epibrassinolide on growth, protein content and antioxidative defense system of Brassica juncea L. subjected to cobalt ion toxicity

Brassica juncea L. plants were subjected to cobalt (Co) ion (0, 5?×?10^?4, 10^?3, 1.5?×?10^?3 and 2?×?10^?3?M) toxicity and were sprayed with different concentrations of 24-epibrassinolide (24-EBL) (0, 10^?10, 10^?8 and 10^?6?M) at 15-day stage after sowing. They were sampled at 30 and 60?days after sowing and analyzed for growth parameters in terms of shoot length and number of leaves. Thereafter, leaves were excised and content of proteins and the activities of antioxidative enzymes (superoxide dismutase (SOD) (EC 1.15.1.1) catalase (CAT) (EC 1.11.1.6), ascorbate peroxidase (APOX) (EC 1.11.1.11), guaiacol peroxidase (POD) (EC 1.11.1.7) glutathione reductase (GR) (EC 1.6.4.2), monodehydroascorbate reductase (MDHAR) (EC 1.1.5.4) and dehydroascorbate reductase (DHAR) (EC 1.8.5.1)) were analyzed. The plants exposed to cobalt ion exhibited a significant decline in growth in terms of shoot length and number of leaves. However, foliar spray treatment with 24-EBL was able to alleviate the stress generated by cobalt ion and significantly improved the above parameters. The activities of antioxidative enzymes (SOD, CAT, POD, GR, APOX, MDHAR and DHAR) and protein content were also regulated considerably in leaves of plants treated with 24-EBL alone, 10^?8?M concentration being the most effective. The activities of antioxidative enzymes also increased in leaves of B. juncea plants by the application of cobalt ion to soil and consequently sprayed with 24-EBL. Similarly, the protein content was also regulated in leaves of B. juncea plants treated with 24-EBL as compared to untreated control plants, thereby revealing stress-protective properties of 24-EBL.