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The phenological responses of plants to changing weather conditions are very strong and can serve as an indicator of global climate change. If we understand how individual species respond to changing conditions, we can represent how ecosystems will change. The aim of this study was to analyze the exposure of climatic factors (air temperature and precipitation) on the fl owering duration of the wild vascular plants species in the Karadag Nature Reserve (Crimea). In general, 152 species were taken into account with a number of phenological observations from 5 to 8 years. Correlation analysis between the fl owering duration and the climatic parameters revealed a signifi cant response in 89 (58.6%) species. Moreover, the climatic factors of the current vegetative season impacted 71 species fl owering, previous vegetative season impacted 4 species fl owering, and both vegetative seasons impacted 14 species fl owering. Air temperature and precipitation equally impacted the fl owering duration: air temperature impacted 35 (41.2%) species fl owering; precipitation impacted 32 (37.7%) species fl owering; both factors impacted 18 (21.1%) species flowering. The flowering duration mostly was negatively correlated with air temperature values and positively with precipitation amount. Mesophytes and the forest community species were the most sensitive to the climatic factors; euxerophytes and the steppe community species were the least sensitive to the climatic factors.

In the paper, the relationship between climatic changes and sedimentation conditions for 4 accumulation stages of the Fuxin and Shahai coal-bearing formations of the Fuxin coal basin in the Aptian-Albian time was established using mathematical statistical methods. As a result, it was observed that the increase in climate humidity coincided with the widespread anoxic oceanic Paquie event (Paquie, OAE1b) during the early Albian time. In addition, a significant influence of facies conditions on the intensity of peat and coal accumulation processes of the Fuxin and Shakhai coal-bearing formations was revealed.

During the cold war, a secret Camp Century military base was created inside the ice sheet in the north-west of Greenland. At this station, the first deep ice core was recovered. It was a beginning of a new era in paleoclimatology – a continuous record of climatic changes over the past 100 thousand years was obtained. At the end of 2018, sediments from the bottom of the Camp Century ice core were discovered at the Niels Bohr Institute in Copenhagen. Their analysis showed that the age of the glacial stratum in this part of Greenland is about 400 thousand years. The history of the Camp Century establishment and glacier ice-core drilling is shown. ; Рассказано о строительстве внутриледниковой станции Camp Century в северо-западной Гренландии во время холодной войны, первом в мире глубоком керновом бурении ледника и о современных исследованиях, связанных с этими работами.

The ethical merits of three major strategies to confront global warming -- prevention, adaptation, & geoengineering -- are considered. From the point of view of consequentialist ethics, the choice between prevention & adaptation depends on the exact set of consequences taken into consideration. Adaptation is likely to be the preferable option if only consequences for humans here & now are emphasized. By contrast, if one also takes into account effects for humans in other parts of the world, for future generations, or for other species, the case for prevention is strengthened. However, it is probably too late to avoid global warming altogether. The question is therefore if we should try to recreate the "original" climate through geoengineering. A number of ethical objections to this strategy are being discussed. The general conclusion is that, for now at least, we ought to prevent global warming as far as possible, & otherwise adapt as best we can to the climatic changes that nevertheless arise. 1 Table, 30 References. Adapted from the source document.

Changes in the bearing capacity of frozen soils under various scenarios of warming in the Arctic zone of the Russian Federation (AZRF) by 2050 are considered. Deformations and destruction of buildings and engineering structures in the Russian Arctic will develop gradually. Taking into account the climatic scenarios (RCP2.6, RCP4.5, RCP8.5), in aggregate, 1/3 of the AZRF territory will experience a decrease in bearing capacity by more than 15% by the middle of the century; the Arctic coast of the European North of Russia, Yamal and the Gydan Peninsula are in the danger zone.

Detailed multiproxy (lithology, micropaleontology, palynology) study of a 455 cm thick marine sediment sequence overlying the Moscovian till exposed in Bychye-2 section on the Pyoza River allowed for reconstructing past environmental changes during the Boreal transgression. Stratigraphic subdivision is based on the succession of local palynological zones that were correlated with previously established regional zones. The latter are constrained on the basis of correlation with the West European palynological zones. Marine sediments of Bychye-2 section accumulated from the end of the Moscovian glacial (>131 ka BP) until ca. 119,5 ka BP. Five ecological zones were established in the section in accordance with the upward trends in the changes in lithology and variability in the taxonomic composition of fossil assemblages of benthic foraminifers and ostracods and associations of marine dinocysts and freshwater green microalgae. Taken together, they are indicative of the progressive shallowing of the basin under the improving climatic conditions, which primarily influenced the degree of sea-ice cover extent. Three successive phases in the evolution of the Boreal transgression have been identified: 1) a seasonally sea-ice covered relatively deep freshened basin of the initial phases of flooding (455-360 cm, >131-130,5 ka BP); 2) a deep basin of the maximum phase of flooding with less extensive sea-ice cover (360-290 cm, 130,5-130,25 ka BP); 3) a shallow basin with reduced seasonal sea-ice cover (290-0 cm, 130,25-119,5 ka BP). The flooding of the territory with cold Arctic waters was rapid, as evidenced by the composition of microfossil assemblages represented by river-proximal Arctic species in combination with the species that prefer water depths of at least 40-50 m. The regression in the region started about 130 ka BP, which indicates that the glacioisostatic rebound of the territory was ahead of the global eustatic sea level rise. The most warm-water and taxonomically diverse assemblages of foraminifers and ostracods, containing species typical of the Baltic Sea, were recorded during the regressive stage, especially in the time interval of ~128-124 ka BP. This probably gives evidence for a rather long-lasting connection of the White and Baltic seas.

Heart rhythm disorders are presented one of the toughest little studied and, in this regard, current problems in cardiology among different populations living in different climatic and geographical conditions. Changes in normal pesmeker heart activity as identified in diseases of internal organs, and apparently healthy people, civilians and soldiers from various law enforcement agencies. Arrhythmia is a serious problem for both civilian and military health care, in view of the fact that there is a direct correlation with a high risk of cardiovascular complications and sudden (primarily aritmogenic Genesis) death. In addition, arrhythmia entail substantial economic burden in their diagnosis and treatment. Special attention should be paid to heart rhythm disorders in athletes and military personnel at the time of physical training standards. Primarily these are «harmless» violations as episodes or permanent migration of rhythm in the Atria, bradycardia, sinus arrhythmia. On the analysis of the studied Russian and world literature, a definite view on the incidence of various arrhythmias and conduction, residing in various climate and geographical areas, and the data obtained is directly dependent on applied research methodologies. ; Нарушения сердечного ритма представляются одной из сложных, малоизученных и, следовательно, актуальных проблем в кардиологии среди популяций людей, проживающих в различных климатогеографических условиях. Изменения нормальной пейсмекерной активности сердца выявляются как при заболеваниях внутренних органов, так и у практически здоровых людей, гражданского населения и военнослужащих различных силовых ведомств. Аритмии — это серьезная проблема как гражданского, так и военного здравоохранения, ввиду того, что имеется прямая корреляционная связь с высоким риском сердечно-сосудистых осложнений и внезапной (в первую очередь аритмогенного генеза) смерти. Кроме того, аритмии влекут за собой существенную экономическую нагрузку при их диагностике и лечении. Особого внимания заслуживают нарушения сердечного ритма у спортсменов и у военнослужащих при сдаче нормативов физической подготовки. В первую очередь это такие «безобидные» нарушения, как эпизоды или постоянная миграция ритма по предсердиям, брадикардия, синусовая аритмия. В изученных российских и мировых источниках нет однозначного представления о распространенности различных нарушений ритма сердца и проводимости у людей, проживающих в различных климатогеографических районах, а полученные данные напрямую зависят от применяемых в исследованиях методик.

The long-term interannual and seasonal variability of the chemical runoff along the main branches of the Kuban River delta was investigated. We analyzed the data of systematic observations on water runoff and the concentrations of the main ions, biogenic and organic substances, phenols, oil products and heavy metals for the period from 2008 to 2018. The annual and seasonal runoff of dissolved chemicals in the main branches of the Kuban River delta, i. e. the Protoka branch and the Kuban branch, was calculated. The chemical composition of water in the main branches of the Kuban River delta is practically the same, and the greatest differences are characteristic of the con-centrations of chlorides, iron compounds, copper and oil products. Multidirectional trends of changes in the ionic composition and content of biogenic elements were revealed. There was a synchronous increase in the concentration of sulphates and ammonium nitrogen in both deltaic branches of the Kuban River; the content of nitrates and nitrites in the Kuban branch practically did not change, while it was decreasing in the Protoka branch. At the same time, the maximum frequency of exceeding the MPC for all components is rather low, and a low level of water pollution is typical. The chemical runoff along the delta branches is rather similar, especially in terms of the runoff of sulphates, organic substances and biogenic elements. The greatest differences by 20-22% are observed in the runoff of chlorides, iron and copper compounds. It is shown that the runoff of chlorides and sulphates, as well as biogenic and organic substances, is interconnected with water runoff. In general, the distribution of chemical runoff along the delta branches is uniform, its seasonal variability corresponds to changes in water amount during the principal seasons, while some differences are observed only for chlorides and iron compounds. Under actual climatic changes and anthropogenic impact, the revealed features and trends of variability of chemical runoff along the main branches of the Kuban River delta are of great practical importance. The data obtained can be used for predictive estimates of the removal of chemicals into the coastal zone of the Sea of Azov.

The research aims to explore climate indicators of Canary Islands as autonomous area of Spain. Climate conditions have a special significance in the EU countries and particularly on the territory of Canary Islands. Canary Islands are separate climatic zone described by six climate types.

In 1958 V.F. Perov, staff member of the Khibiny Research and Training Station of the MSU Faculty of Geography, described four snow-ice formations in the Khibiny Mountains and classified them as very small glaciers. Until our research began in 2005, these glaciers were not studied in detail. We used field observations, drilling, GIS and remote sensing methods to study the structure of the glaciers and evaluate changes in their geometry during 60 years. The snow-ice formations were drilled through for the first time and the ice cores underwent geochemical and isotope-oxygen analyses. The thickness of ice kernels varies from 0,2 to 1,6 m. Our investigations showed that despite a slight degradation, the glaciers` area remains relatively stable since 1958. This fact may be caused by the increase in solid precipitation in recent years. According to the analysis of climatic changes, in the early 2000s a decrease in snowfall was observed in the Khibiny Mountains. The maximum snow thickness at the meteorological site of the Khibiny station in 2002-2003 winter period was 55 cm. This could be a factor of more than 2 times decrease of glacier areas during 2000-2010. After 2007 there has been an increase in snow precipitation, and the maximum snow depth of 180 cm was observed in 2020, the absolute maximum for the whole period of observations (1984-2020). According to published data the increase in mean annual temperature at the plains of the Kola Peninsula is 2,3 ± 1°C during the last 50 years. However, mean monthly temperatures of the summer do not rise. We consider that, along with recently increasing snow precipitation, this is exactly what determine rather stable state of snow-ice formations in the Khibiny Mountains, which appeared to be more resistant to climate warming than mountain glaciers.