Multiple trade‐offs regulate the effects of woody plant removal on biodiversity and ecosystem functions in global rangelands

Woody plant encroachment is a major land management issue. Woody removal often aims to restore the original grassy ecosystem, but few studies have assessed the role of woody removal on ecosystem functions and biodiversity at global scales. We collected data from 140 global studies and evaluated how different woody plant removal methods affected biodiversity (plant and animal diversity) and ecosystem functions (plant production, hydrological function, soil carbon) across global rangelands. Our results indicate that the impact of removal is strongly context dependent, varying with the specific response variable, removal method, and traits of the target species. Over all treatments, woody plant removal increased grass biomass and total groundstorey diversity. Physical and chemical removal methods increased grass biomass and total groundstorey biomass (i.e., non‐woody plants, including grass biomass), but burning reduced animal diversity. The impact of different treatment methods declined with time since removal, particularly for total groundstorey biomass. Removing pyramid‐shaped woody plants increased total groundstorey biomass and hydrological function but reduced total groundstorey diversity. Environmental context (e.g., aridity and soil texture) indirectly controlled the effect of removal on biomass and biodiversity by influencing plant traits such as plant shape, allelopathic, or roots types. Our study demonstrates that a one‐size‐fits‐all approach to woody plant removal is not appropriate, and that consideration of woody plant identity, removal method, and environmental context is critical for optimizing removal outcomes. Applying this knowledge is fundamental for maintaining diverse and functional rangeland ecosystems as we move toward a drier and more variable climate.     

Inactivation of template-directed misfolding of infectious prion protein by ozone

Misfolded prions (PrP(Sc)) are well known for their resistance to conventional decontamination processes. The potential risk of contamination of the water environment, as a result of disposal of specified risk materials (SRM), has raised public concerns. Ozone is commonly utilized in the water industry for inactivation of microbial contaminants and was tested in this study for its ability to inactivate prions (263K hamster scrapie = PrP(Sc)). Treatment variables included initial ozone dose (7.6 to 25.7 mg/liter), contact time (5 s and 5 min), temperature (4°C and 20°C), and pH (pH 4.4, 6.0, and 8.0). Exposure of dilute suspensions of the infected 263K hamster brain homogenates (IBH) (0.01%) to ozone resulted in the in vitro destruction of the templating properties of PrP(Sc), as measured by the protein misfolding cyclic amplification (PMCA) assay. The highest levels of prion inactivation (≥4 log(10)) were observed with ozone doses of 13.0 mg/liter, at pH 4.4 and 20°C, resulting in a CT (the product of residual ozone concentration and contact time) value as low as 0.59 mg · liter(-1) min. A comparison of ozone CT requirements among various pathogens suggests that prions are more susceptible to ozone degradation than some model bacteria and protozoa and that ozone treatment may be an effective solution for inactivating prions in water and wastewater.     

Jelly-falls historic and recent observations: a review to drive future research directions

The biological pump describes the transport of particulate matter from the sea surface to the ocean’s interior including the seabed. The contribution by gelatinous zooplankton bodies as particulate organic matter (POM) vectors (“jelly-falls”) has been neglected owing to technical and spatiotemporal sampling limitations. Here, we assess the existing evidence on jelly-falls from early ocean observations to present times. The seasonality of jelly-falls indicates that they mostly occur after periods of strong upwelling and/or spring blooms in temperate/subpolar zones and during late spring/early summer. A conceptual model helps to define a jelly-fall based on empirical and field observations of biogeochemical and ecological processes. We then compile and discuss existing strategic and observational oceanographic techniques that could be implemented to further jelly-falls research. Seabed video- and photography-based studies deliver the best results, and the correct use of fishing techniques, such as trawling, could provide comprehensive regional datasets. We conclude by considering the possibility of increased gelatinous biomasses in the future ocean induced by upper ocean processes favouring their populations, thus increasing jelly-POM downward transport. We suggest that this could provide a “natural compensation” for predicted losses in pelagic POM with respect to fuelling benthic ecosystems.     

Structural Insights into the Pseudomonas aeruginosa Type VI Virulence Effector Tse1 Bacteriolysis and Self-protection Mechanisms

Recently, it was identified that Pseudomonas aeruginosa competes with rival cells to gain a growth advantage using a novel mechanism that includes two interrelated processes as follows: employing type VI secretion system (T6SS) virulence effectors to lyse other bacteria, and at the same time producing specialized immunity proteins to inactivate their cognate effectors for self-protection against mutual toxicity. To explore the structural basis of these processes in the context of functional performance, the crystal structures of the T6SS virulence effector Tse1 and its complex with the corresponding immunity protein Tsi1 were determined, which, in association with mutagenesis and Biacore analyses, provided a molecular platform to resolve the relevant structural questions. The results indicated that Tse1 features a papain-like structure and conserved catalytic site with distinct substrate-binding sites to hydrolyze its murein peptide substrate. The immunity protein Tsi1 interacts with Tse1 via a unique interactive recognition mode to shield Tse1 from its physiological substrate. These findings reveal both the structural mechanisms for bacteriolysis and the self-protection against the T6SS effector Tse1. These mechanisms are significant not only by contributing to a novel understanding of niche competition among bacteria but also in providing a structural basis for antibacterial agent design and the development of new strategies to fight P. aeruginosa.     

基于复合叶片特征的计算机植物识别方法

该文探讨如何根据植物的叶片特征,利用图像处理和机器学习的方法对植物进行分类。鉴于现有的叶片分类系统多采用单一的特征,如几何和纹理等,仅能在小规模数据库上得到较好的结果。然而,随着样本种类的增多,单一特征在不同种类叶片之间的相似性非常明显,致使分类正确率降低。该研究使用多种复合特征,并提出了原创的预处理方法以及宽度、叶缘频率特征,较传统的几何特征更为详尽。研究结果显示,复合特征可以有效避免算法过拟合问题,使之适用于更大的数据库。通过提取21类植物的叶片宽度、颜色、叶缘和纹理共292维特征,对1 915张数字图像进行了分类,正确率达到93%,并分析了各类特征对分类结果的影响。研究结果表明,在不影响分类正确率前提下,可将特征减少到约100维。     

Expression of Tumor-Associated Macrophage in Progression of Human Glioma

The aim of this study is to investigate the expression of tumor-associated macrophages (TAMs) M1, M2 phenotypic in human glioma tissues, and to explore the clinical significance and prognostic value of TAMs in glioma patients. A total of 50 glioma samples were obtained from patients diagnosed in our hospital from 2007 to 2010. Clinical follow-up was conducted via return visits and telephone interviews after discharge. Progression free survival (PFS) was calculated based on tumor progression by MRI and CT examination from the primary operation. Overall survival (OS) time was calculated from the initial surgical operation date to end date of follow-up or death. Kaplan–Meier methodology was used to evaluate the survival of patients and log-rank test for comparing differences between groups. The expression levels of CD16 and CD206 were investigated in the 4 μm serial paraffin sections by immunohistochemistry. M1-type macrophages filtrated in all the grades of glioma samples, and the lower expression level was associated with high grade glioma. A negative correlation was found between WHO pathological grades and the expression of M1-type macrophages by Spearman correlation analysis. M2-type macrophages filtrated in all the grades of glioma samples with the higher expression level associated with high grade glioma. A positive correlation was found between WHO pathological grades and the expression of M2-type macrophages by Spearman correlation analysis. The PFS and OS among patients with high levels of M1-type macrophages (CD16+++) were significantly higher than those with less expression. The PFS and OS among patients with high levels of M2-type macrophages (CD206+++) were significantly lower than those with low expression. M1-type macrophages may inhibit the tumor growth and improve the therapeutic outcome of glioma patients. M2 ratios are associated with tumor proliferation and poor prognosis. TAMs phenotypes of glioma samples are the potential biomarkers in assessing the degree of malignancy, tumor invasion, and patient prognosis in clinic.     

Environmental dynamics of dissolved black carbon in wetlands

Wetlands are ecosystems commonly characterized by elevated levels of dissolved organic carbon (DOC), and although they cover a surface area less than 2 % worldwide, they are an important carbon source representing an estimated 15 % of global annual DOC flux to the oceans. Because of their unique hydrological characteristics, fire can be an important ecological driver in pulsed wetland systems. Consequently, wetlands may be important sources not only of DOC but also of products derived from biomass burning, such as dissolved black carbon (DBC). However, the biogeochemistry of DBC in wetlands has not been studied in detail. The objective of this study is to determine the environmental dynamics of DBC in different fire-impacted wetlands. An intensive, 2-year spatial and temporal dynamics study of DBC in a coastal wetland, the Everglades (Florida) system, as well as one-time sampling surveys for the other two inland wetlands, Okavango Delta (Botswana) and the Pantanal (Brazil), were reported. Our data reveal that DBC dynamics are strongly coupled with the DOC dynamics regardless of location, season or recent fire history. The statistically significant linear regression between DOC and DBC was applied to estimate DBC fluxes to the coastal zone through two main riverine DOC export routes in the Everglades ecosystem. The presence of significant amounts of DBC in these three fire-impacted ecosystems suggests that sub-tropical wetlands could represent an important continental-ocean carrier of combustion products from biomass burning. The discrimination of DBC molecular structure (i.e. aromaticity) between coastal and terrestrial samples, and between samples collected in wet and dry season, suggests that spatially-significant variation in DBC source strength and/or degree of degradation may also influence DBC dynamics.     

<Emphasis Type="Italic">Drosophila</Emphasis> as a platform to predict the pathogenicity of novel aminoacyl-tRNA synthetase mutations in CMT

Charcot-Marie-Tooth disease (CMT) is the major form of inherited peripheral neuropathy in humans. CMT is clinically and genetically heterogeneous and four aminoacyl-tRNA synthetases have been implicated in disease etiology. Mutations in the YARS gene encoding a tyrosyl-tRNA synthetase (TyrRS) lead to Dominant Intermediate CMT type C (DI-CMTC). Three dominant YARS mutations were so far associated with DI-CMTC. To further expand the spectrum of CMT causing genetic defects in this tRNA synthetase, we performed DNA sequencing of YARS coding regions in a cohort of 181 patients with various types of peripheral neuropathy. We identified a novel K265N substitution that in contrast to all previously described mutations is located at the anticodon recognition domain of the enzyme. Further genetic analysis revealed that this variant represents a benign substitution. Using our recently developed DI-CMTC Drosophila model, we tested in vivo the pathogenicity of this new YARS variant. We demonstrated that the developmental and behavioral defects induced by all DI-CMTC causing mutations were not present upon ubiquitous or panneuronal TyrRS K265N expression. Thus, in line with our genetic studies, functional analysis confirmed that the K265N substitution does not induce toxicity signs in Drosophila. The consistency observed throughout this work underscores the robustness of our DI-CMTC animal model and identifies Drosophila as a valid read-out platform to ascertain the pathogenicity of novel mutations to be identified in the future.     

血管外给药动力学模型残余面积的估计

以达峰时为时间单位,探讨了血管外给药-房室模型残余面积的估计问题,研究结果表明,当采样时间持续为达峰时的6倍左右,或最后采样的血药浓度小于峰浓度的20％,可保证残余面积不超过总面积的20％．