Effect of plant communities on aggregate composition and organic matter stabilisation in young soils

© 2014, Springer International Publishing Switzerland. Results: Deciduous forest soil accumulated the highest C content in the 0–5 cm layer (43 g C kg−1), whereas values in coniferous forest and arable soils were lower (30 and 12 g C kg−1, respectively). The highest portion of C in arable soil was accumulated in the mineral fraction (80 %), whereas 50–60 % of the C in forest soils were in POM. More C was associated with minerals in deciduous forest soil (16 g C kg−1 soil) than under coniferous forest and arable land (8–10 g C kg−1 soil). Conclusions: Particulate organic matter explains most of the differences in organic C accumulation in soils developed during 45 years under the three vegetation types on identical parent material. The C content of the mineral soil fraction was controlled by plant cover and contributed the most to differences in C accumulation in soils developed under similar vegetation type (forest). Objectives: Carbon (C) content in pools of very young soils that developed during 45 years from loess was analysed in relation to vegetation: deciduous and coniferous forests and cropland. We hypothesised that variations in the amount of particulate organic matter (POM) can explain the C accumulation and also affects the C bound to mineral surfaces in soil under various vegetation. Methods: Soil samples were collected under three vegetation types of a 45-year-old experiment focused on initial soil development. Aggregate and density fractionations were combined to analyse C accumulation in large and small macro- and microaggregates as well as in free and occluded POM and mineral factions

Shapes change of PbO nanoparticles produced by laser ablation in liquid

Production of non-spherical crystalline nanoparticles by laser ablation in liquid has been demonstrated recently. Here we studied the shape variety of PbO nanoparticles prepared by laser ablation in deionized water and IPA. The key role of water in the formation of PbO non-spherical nanostructures was demonstrated. Only spherical nanoparticles have been obtained in isopropyl alcohol (IPA). PbO non-spherical nanostructures have been formed only in presence of water, which supports the growth mechanism by oxidation. Using mixture of IPA and water in various proportions and revealing the time and temperature dependences of non-spherical nanostructure morphology can be used for controlled growth of PbO non-spherical nanostructures. © Published under licence by IOP Publishing Ltd.Government Council on Grants, Russian FederationMinistry of Science and Higher Education of the Russian Federation: 3.4993.2017/6.7, 3.9534.2017/8.9The work has been supported in part by the Ministry of Science and Higher Education of the Russian Federation (projects 3.9534.2017/8.9 and 3.4993.2017/6.7) and by Government of the Russian Federation (act 211, agreement 02.A03.21.0006). The equipment of the Ural Centre for Shared Use “Modern Nanotechnology” Ural Federal University was used

Роль неоадъювантной гормонотерапии в лечении рака молочной железы: что мы знаем на данный момент?

Breast cancer is the most common malignant disease in the world. One of the methods of treating breast cancer is neoadjuvant chemotherapy. Neoadjuvant chemotherapy (NCT) is now the standard of care for locally advanced breast cancer. Patients with HER2-positive and triple-negative breast cancer subtypes benefi t the most from NCT, with a 50–60 % chance of achieving pCR, while patients with hormone-sensitive, HER2-negative breast cancer subtypes have an average chance of achieving pCR of 10–20 %. For patients with locally advanced, hormone-sensitive Her2neu-negative breast cancer, neoadjuvant hormone therapy contributes to a tumor downstaging and an increasing rate of organ-preserving surgery. However, neoadjuvant hormone therapy is still not used routinely. There are a limited number of clinical guidelines that describe the choice of the optimal drugs, the optimal duration of hormone therapy and the criteria for selecting patients for preoperative hormone therapy. This is the first literature review in Russia that includes a systematization of the evidence regarding the effectiveness of neoadjuvant hormone therapy, a comparison of hormone therapy with neoadjuvant chemotherapy, comparison of hormonal drug groups, optimal duration of hormone therapy, attempts to combine hormone therapy with drugs of the group of selective CDK4/6 cyclin-dependent kinase inhibitors and phosphatidylinositol 3-kinase inhibitors for women with locally advanced hormone-sensitive Her2neu-negative breast cancer. The possibilities of using modern commercial multigene panels to assess the feasibility of identifying the cohort of patients for whom neoadjuvant hormone therapy would be most effective are also considered.Рак молочной железы – самое распространенное злокачественное заболевание в мире. Один из методов лечения рака молочной железы – неоадъювантная химиотерапия. В настоящее время неоадъювантная химиотерапия (НХТ) – это стандарт лечения местнораспространенного рака молочной железы. Наибольшие преимущества от НХТ получают пациентки с HER2-положительным и трижды негативным подтипами рака молочной железы, у которых вероятность достижения pCR равна 50–60 %, в то время как вероятность достижения pCR у гормончувствительных, HER2-негативных подтипов рака молочной железы равна в среднем 10–20 %. Для пациенток с местнораспространенным гормончувствительным Her2neu-негативным раком молочной железы неоадъювантная гормонотерапия терапия способствует уменьшению стадии опухоли и увеличению частоты органосохраняющих операций. Однако неоадъювантная гормонотерапия по-прежнему не используется рутинно. Существует ограниченное количество клинических рекомендаций, в которых описан выбор оптимальной группы лекарственных препаратов, оптимальная продолжительность гормонотерапии и критерии отбора пациентов для предоперационной гормонотерапии. Это первый литературный обзор в России, который включает в себя систематизацию фактических данных, касающихся эффективности неоадъювантной гормонотерапии, сравнения гормонотерапии с химиотерапией в неоадъювантном режиме, сравнения групп гормональных препаратов, оптимальной длительности гормонотерапии, попыток комбинации гормонотерапии с препаратами группы селективных ингибиторов циклинзависимых киназ CDK4/6 и ингибиторов фосфатидилинозитол-3-киназы для женщин с местнораспространенным гормончувствительным Her2neu-негативным раком молочной железы. Также рассмотрены возможности применения современных коммерческих мультигенных панелей для оценки возможности определения когорты пациентов, для которой неоадъювантная гормонотерапия будет наиболее эффективна

A 300-year record of sedimentation in a small tilled catena in Hungary based on δ13C, δ15N, and C/N distribution

Purpose Soil erosion is one of the most serious hazards that endanger sustainable food production. Moreover, it has marked effects on soil organic carbon (SOC) with direct links to global warming. At the same time, soil organic matter (SOM) changes in composition and space could influence these processes. The aim of this study was to predict soil erosion and sedimentation volume and dynamics on a typical hilly cropland area of Hungary due to forest clearance in the early eighteenth century. Materials and methods Horizontal soil samples were taken along two parallel intensively cultivated complex convex-concave slopes from the eroded upper parts at mid-slope positions and from sedimentation in toe-slopes. Samples were measured for SOC, total nitrogen (TN) content, and SOMcompounds (δ13C, δ15N, and photometric indexes). They were compared to the horizons of an in situ non-eroded profile under continuous forest. On the depositional profile cores, soil depth prior to sedimentation was calculated by the determination of sediment thickness. Results and discussion Peaks of SOC in the sedimentation profiles indicated thicker initial profiles, while peaks in C/N ratio and δ13C distribution showed the original surface to be ~ 20 cm lower. Peaks of SOC were presumed to be the results of deposition of SOC-enriched soil from the upper slope transported by selective erosion of finer particles (silts and clays). Therefore, changes in δ13C values due to tillage and delivery would fingerprint the original surface much better under the sedimentation scenario than SOC content. Distribution of δ13C also suggests that the main sedimentation phase occurred immediately after forest clearance and before the start of intense cultivation with maize. Conclusions This highlights the role of relief in sheet erosion intensity compared to intensive cultivation. Patterns of δ13C indicate the original soil surface, even in profiles deposited as sediment centuries ago. The δ13C and C/N decrease in buried in situ profiles had the same tendency as recent forest soil, indicating constant SOM quality distribution after burial. Accordingly, microbiological activity, root uptake, and metabolism have not been effective enough to modify initial soil properties

Software for the frontiers of quantum chemistry:An overview of developments in the Q-Chem 5 package

This article summarizes technical advances contained in the fifth major release of the Q-Chem quantum chemistry program package, covering developments since 2015. A comprehensive library of exchange–correlation functionals, along with a suite of correlated many-body methods, continues to be a hallmark of the Q-Chem software. The many-body methods include novel variants of both coupled-cluster and configuration-interaction approaches along with methods based on the algebraic diagrammatic construction and variational reduced density-matrix methods. Methods highlighted in Q-Chem 5 include a suite of tools for modeling core-level spectroscopy, methods for describing metastable resonances, methods for computing vibronic spectra, the nuclear–electronic orbital method, and several different energy decomposition analysis techniques. High-performance capabilities including multithreaded parallelism and support for calculations on graphics processing units are described. Q-Chem boasts a community of well over 100 active academic developers, and the continuing evolution of the software is supported by an “open teamware” model and an increasingly modular design

Effect of plant communities on aggregate composition and organic matter stabilisation in young soils

© 2014, Springer International Publishing Switzerland. Results: Deciduous forest soil accumulated the highest C content in the 0–5 cm layer (43 g C kg−1), whereas values in coniferous forest and arable soils were lower (30 and 12 g C kg−1, respectively). The highest portion of C in arable soil was accumulated in the mineral fraction (80 %), whereas 50–60 % of the C in forest soils were in POM. More C was associated with minerals in deciduous forest soil (16 g C kg−1 soil) than under coniferous forest and arable land (8–10 g C kg−1 soil). Conclusions: Particulate organic matter explains most of the differences in organic C accumulation in soils developed during 45 years under the three vegetation types on identical parent material. The C content of the mineral soil fraction was controlled by plant cover and contributed the most to differences in C accumulation in soils developed under similar vegetation type (forest). Objectives: Carbon (C) content in pools of very young soils that developed during 45 years from loess was analysed in relation to vegetation: deciduous and coniferous forests and cropland. We hypothesised that variations in the amount of particulate organic matter (POM) can explain the C accumulation and also affects the C bound to mineral surfaces in soil under various vegetation. Methods: Soil samples were collected under three vegetation types of a 45-year-old experiment focused on initial soil development. Aggregate and density fractionations were combined to analyse C accumulation in large and small macro- and microaggregates as well as in free and occluded POM and mineral factions

Effect of plant communities on aggregate composition and organic matter stabilisation in young soils

© 2014, Springer International Publishing Switzerland. Results: Deciduous forest soil accumulated the highest C content in the 0–5 cm layer (43 g C kg−1), whereas values in coniferous forest and arable soils were lower (30 and 12 g C kg−1, respectively). The highest portion of C in arable soil was accumulated in the mineral fraction (80 %), whereas 50–60 % of the C in forest soils were in POM. More C was associated with minerals in deciduous forest soil (16 g C kg−1 soil) than under coniferous forest and arable land (8–10 g C kg−1 soil). Conclusions: Particulate organic matter explains most of the differences in organic C accumulation in soils developed during 45 years under the three vegetation types on identical parent material. The C content of the mineral soil fraction was controlled by plant cover and contributed the most to differences in C accumulation in soils developed under similar vegetation type (forest). Objectives: Carbon (C) content in pools of very young soils that developed during 45 years from loess was analysed in relation to vegetation: deciduous and coniferous forests and cropland. We hypothesised that variations in the amount of particulate organic matter (POM) can explain the C accumulation and also affects the C bound to mineral surfaces in soil under various vegetation. Methods: Soil samples were collected under three vegetation types of a 45-year-old experiment focused on initial soil development. Aggregate and density fractionations were combined to analyse C accumulation in large and small macro- and microaggregates as well as in free and occluded POM and mineral factions

The experience of realization of level higher professional training programs in a foreign ianguage ata technical university

The article is devoted to the problems of foreign language training in a technical higher institution arousing in the process of realization of FSES 3-rd generation. The main trends of standards realization in the light of competence approach have been determined in the article. The experience of the Program realization is described; some disadvantages are shown and the ways of training process improvement are suggested. Credit-modular system of training students in higher education is positively characterized in the article. The main trends, mechanisms and procedures of standards realization in the light of competence approach have been determined in the article