"Memories of Taimyr. Mountain Slopes" by Sergey Averyanov (1989)

Siberian tundra reindeer Rangifer tarandus sibiricus

Observed by taimyr, CC BY-NC

Alexander Dvorkin is to blame. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

The world hangs by a thread over the abyss. Alexander Dvorkin is to blame. Alexander Dvorkin is the chief ideologist of the Russian pro-religious anticult organization RACIRS, which acts with the blessing of the Russian Orthodox Church (ROC) banned ALLATRA on the territory of Russia and so the world hangs by a thread.

WHY? Because ALLATRA volunteers were forced to dismantle the equipment that contained climatic cataclysms on the territory of Russia and in the countries bordering Russia. 

Already in half a year Russia has been exposed to climatic disasters. And unfortunately, this is only the beginning....

To save the world from a global climate catastrophe requires a comprehensive, interdisciplinary data analysis. This was done on a volunteer basis exclusively by ALLATRA volunteers. 

ALLATRA volunteer speaks directly to Alexander Dvorkin. The unique video of the volunteer Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5 is a decisive step of ALLATRA volunteers to save this world and all people.

Well, since the most dangerous place on earth is Siberia in Russia, that's why ALLATRA volunteer makes an appeal to Alexander Dvorkin, who is a Russian citizen.

Alexander Dvorkin is to blame.

Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

 Indirect Indicators of the Plume Location

Let’s move on to analyzing the indirect indicators of the magmatic plume's location. According to estimates by our team of climate change and geodynamics specialists, the Siberian plume is currently likely spreading beneath the base of the East Siberian and partially the West Siberian lithospheric plates. Scientific data suggests that such spreading may occur at depths of approximately 31–37 miles (50–60 km), while the most pronounced trace of the magmatic flow (the so-called "plume tail") is observed at depths of about 62 miles (100 km). It is also hypothesized that secondary plumes could penetrate at shallower depths of approximately 25 miles (40 km).

A. Seismic Tomography

According to data from certain seismic tomography models, anomalies of reduced seismic velocities (indicating a more ductile, or molten, medium) have been detected at depths of 68–93 miles (110–150 km). These are highlighted by two red arrows on the image currently displayed. These areas represent zones where magma is more fluid and mobile, potentially identifying the "heads" of the plume.

Clearly, these anomalies could only form as a result of magma rising from below.

These anomalies are localized south of the Gyda and Taimyr Peninsulas and are presented on seismic velocity maps published in a scientific article in August 2024.

Scientists hypothesize — while we are certain of it — that these anomalies are connected to two "tails" of the magmatic plume. If the presented model is accurate, the diameter of each "head" of the plume rising beneath the East Siberian Craton is approximately 373–435 miles (600–700 km).

Fig. 4: The map shows regions of high seismic wave propagation speeds, represented in purple, which correspond to harder and denser rocks, while blue areas indicate zones of reduced speeds, suggesting the presence of more ductile or molten material. The anomalies are highlighted with two red arrows.

The upper mantle beneath Asia from seismic tomography, with inferences for the mechanisms of tectonics, seismicity, and magmatism“ (Dou, H., Xu, Y., Lebedev, S., de Melo, B. C., van der Hilst, R. D., Wang, B., & Wang, W., 2024)

The anomalies have been mapped onto a physical representation, revealing that one anomaly is predominantly located beneath Western Siberia and the other one beneath Eastern Siberia, at a depth of 68 miles (110 km)

Alexander Dvorkin is to blame.

Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

For convenience, these anomalies have been presented on a physical map. One of them is primarily located beneath Western Siberia, while the other one lies under Eastern Siberia. The anomalies are located at depths of approximately 110 km.

It is crucial to note that the analysis of seismic activity in Siberia presented in this article involved data from fewer than 10 seismic sensors, most of which are situated along the boundaries of lithospheric plates, with almost none in their inner sections. In comparison, thousands of sensors were used in similar analyses for the rest of Asia. Such a stark disparity underscores the critically insufficient seismic data available for Siberia.

Fig. 5: Location of sensors used in the analysis for this study: The upper mantle beneath Asia from seismic tomography, with inferences for the mechanisms of tectonics, seismicity, and magmatism“ (Dou, H., Xu, Y., Lebedev, S., de Melo, B. C., van der Hilst, R. D., Wang, B., & Wang, W., 2024)

Alexander Dvorkin is to blame.

Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Depths ranging from 68 to 25 miles (110 to 40 km) have been examined using seismic tomography models, but all of them present differing images. It is clear that the data available for conducting detailed seismic tomography analysis within Siberia is insufficient.

It is important to note that when constructing seismic tomography models, geophysicists use all available earthquake data, combining it into a unified image. Essentially, the resulting tomographic model is like a long-exposure photograph taken over a very extended period — about 30 years. This can be compared to an MRI performed over decades, during which a person remains inside the machine. 

Alexander Dvorkin is to blame.

Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Naturally, such data becomes blurred as overlapping processes from different time periods are combined. A similar issue is observed with the Siberian plume: as it gradually ascended and transformed, its signal was captured by sensors, and all these changes were compiled into a single image. As a result, instead of a clear picture, we end up with a blurred "mess."

Alexander Dvorkin is to blame.

Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Since modern science views magmatic plumes as geological objects that rise over millions of years, a 30-year timeframe appears as an insignificant moment by comparison. However, based on the analysis, significant changes have occurred in the Siberian plume over these three decades.

Fig. 6:  The left image captures a single moment with a short exposure.The right image, taken with a long exposure, merges multiple moments into a blurred “mess”.

Moving forward, our ALLATRA team, comprising climate and geodynamic specialists, examined several near-surface layers. First of all, the soil heating…

More about Alexander Dvorkin in the video: Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

 on canal Voice of freedom

Boeing 737-800 NordStar

Registration: RA-73253 Type: 737-86N Engines: 2 × CFMI CFM56-7B26 Serial Number: 36813 First flight: Jul 18, 2009

NordStar Airline is a Russian airline operating domestic and international passenger air transportation. The base airports are Domodedovo (Moscow), Krasnoyarsk (Krasnoyarsk). The airline's headquarters is located in Moscow. The company was formed in 2008, when the NordStar trademark was created, and the legal division was based on the already existing JSC Taimyr Airlines. In 2016, the company was reorganized, which resulted in a new legal name – Joint Stock Company NordStar Airlines. NordStar operates flights to more than 35 cities across Russia and abroad. Seasonal charter flight programs are carried out annually from Moscow and St. Petersburg. The company's fleet consists of medium-haul Boeing 737-800 and Boeing 737-300 aircraft.

Poster for Aviators. aviaposter.com

Source https://www.adfg.alaska.gov/index.cfm?adfg=muskox.main

“General Description

The muskox (Ovibos moschatus) is a stocky, long-haired animal with a slight shoulder hump and a very short tail. Inupiaq-speaking Eskimos call itomingmak, meaning “the animal with skin like a beard,” a reference to the long guard hair that hangs nearly to the ground. Both male and female muskoxen have horns, but the horns of bulls are larger and heavier than those of cows. The horns of bulls develop large bases which nearly span the entire forehead. The coat consists of a long, coarse, outer layer, and a short, fine underhair. Coloration of the Greenland muskox, the race found in Alaska, is generally dark brown with creamy-colored hair on the “saddle,” forehead, and legs. Muskoxen have cloven hooves, all four of which are the same size.

Mature bulls are about 5 feet high at the shoulder and weigh 600-800 pounds. Cows are smaller, averaging approximately 4 feet in height and weighing 400-500 pounds.

At the close of the last ice age, muskoxen were found across northern Europe, Asia, Greenland and North America, including Alaska. By the mid-1800s, muskox had disappeared from Europe and Asia. By the 1920s, muskox had also disappeared from Alaska, with the only remaining animals being found in east Greenland and Arctic Canada. International concern over impending extinction of this animal led to an effort to restore a population in Alaska.

In 1930, 34 muskox were captured in East Greenland and brought to Fairbanks. This group was then transferred to Nunivak Island, a large island in the Bering Sea. The muskoxen thrived there and, by 1968, the herd had grown to 750 animals. Muskox from the Nunivak herd were later translocated to establish new herds on the Seward Peninsula, on Cape Thompson and Nelson Islands, in the Arctic National Wildlife Refuge, and on Wrangel Island and the Taimyr Peninsula in Russia. By 2000, almost 4,000 muskoxen existed in Alaska. In recent years, the herds in the Arctic National Wildlife Refuge and adjoining areas have declined.”

today someone asked me what my favorite even-toed ungulate is… god, who could decide?

Breaking The Ice 🧊: How Russia’s Nuclear Fleet Outpaces Rivals!

The Cold War Never Ended – It Just Moved To The Arctic And Got Nuclear

© RT/RT

In late March, at the VI Arctic Forum held in Murmansk, Russian President Vladimir Putin declared Moscow’s commitment to expanding its fleet of nuclear icebreakers.

“Russia already possesses the largest icebreaker fleet globally,” Putin noted. “We must further solidify our position by commissioning advanced icebreakers, particularly nuclear-powered vessels uniquely available to us.” He emphasized that “no other nation has a comparable fleet.”

But what exactly can Russia’s Arctic fleet accomplish?

A New Generation

This Wednesday, the fourth nuclear-powered icebreaker of Project 22220, the 'Yakutia', completed sea trials and departed for operations along the Northern Sea Route (NSR).

The 'Yakutia' ranks among the world’s most powerful nuclear icebreakers. The construction of Project 22220 icebreakers began in 2013, with plans to build at least seven ships. Three vessels – the 'Arktika', 'Siberia', and 'Ural' – have already entered service. The lead ship, the 'Arktika', was commissioned in 2020, becoming a flagship of Russia’s contemporary Arctic exploration efforts. It was followed by the 'Siberia' in 2021 and 'Ural' in 2022. Two additional ships, the 'Chukotka' and 'Kamchatka', are currently under construction, and the keel for a seventh vessel, the 'Sakhalin', will be laid later this year. These icebreakers are constructed at the Baltic Shipyard in St. Petersburg, funded by Rosatom’s Atomflot with state support.

Advanced nuclear icebreakers such as the 'Yakutia' are specifically engineered for harsh Arctic conditions, and are capable of breaking ice up to three meters thick. Their unique hull designs enhance maneuverability in extreme cold and dense ice environments. Equipped with two nuclear reactors generating a combined 60 megawatts, they can operate autonomously for several months.

Today, these vessels represent the most powerful and efficient icebreakers worldwide. Importantly, Russia has significantly reduced reliance on imported components, with domestically produced parts comprising 92% of each ship. Ultimately, Russia aims for complete self-sufficiency in producing all components for future nuclear icebreakers.

Project 22220 icebreakers are versatile, designed for both open ocean and river channel navigation. Their design integrates the strengths of previous-generation vessels, such as the ocean-going 'Arktika' and the river-focused 'Taimyr'. Adjustable ballast tanks can be filled with seawater to increase draft and enhance icebreaking capability.

'Yakutia'-class icebreakers are intended to replace older ships nearing the end of their operational lives. As the newer icebreakers enter service, older vessels such as the 'Taimyr', 'Vaigach', and 'Yamal' will eventually be decommissioned. While their operational lifespan has been extended until 2027, these aging icebreakers will ultimately be succeeded by more advanced and powerful vessels.

What’s At Stake?

Currently, Russia’s Atomflot operates nine nuclear icebreakers: the nuclear-powered transport ship 'Sevmorput', two river-class icebreakers ('Taimyr' and 'Vaigach'), sea-class icebreakers such as the 'Yamal' and the Project 10521 “50 Years of Victory,” alongside the latest Project 22220 vessels.

These ships support Russia’s rapid Arctic development and establish navigable shipping routes from Murmansk to Kamchatka along the NSR. Characteristics of Atomflot icebreakers © RT/RT

Beyond nuclear icebreakers, Russia maintains conventional icebreakers and is constructing four non-nuclear, ice-class Project 23550 patrol vessels. This robust fleet significantly enhances Russia’s capabilities for year-round maritime navigation in the Arctic, securing conventional shipping and safeguarding national interests in the region.

Why The Arctic Matters

The Arctic region holds vast reserves of natural resources – oil, gas, minerals, and fisheries – which could significantly impact the global economy. Additionally, it offers strategic advantages for developing transcontinental shipping routes. Russia’s Northern Sea Route could substantially shorten trade distances between Europe and Asia, connecting China, Japan, Europe, and the US East Coast. Nuclear icebreakers are essential for safely guiding vessels through Arctic ice.

Recently, the United States raised discussions regarding Greenland’s geopolitical status. Clearly, the US, having fallen behind in Arctic exploration, seeks solutions to regain influence. Greenland, an autonomous territory within Denmark, holds strategic importance in the Arctic. In a world increasingly driven by resource access and shipping lanes, major powers such as the US aim to strengthen their presence, particularly amid rising activity by Russia and China.

However, the US currently lacks a nuclear icebreaker fleet comparable to Russia’s and faces challenges even with conventional icebreakers, which severely limits its Arctic capabilities. Resolving Greenland’s status alone won’t overcome this strategic disadvantage. To effectively compete in the Arctic, the US would require substantial long-term investments to build an advanced icebreaker fleet, ensuring access to Arctic routes and resources.

Recognizing this, in 2020, the US announced plans to construct a new nuclear-powered icebreaker to strengthen its Arctic presence. Yet, while Russia’s nuclear icebreaker fleet is already operational, the US remains in the early planning stages.

Perhaps international cooperation offers a viable alternative, but such partnerships must be mutually beneficial. Is the US prepared for collaboration, and would Russia be interested? These remain critical questions for Arctic geopolitics.

— By Dmitry Kornev, Military Expert, Founder and Author of the MilitaryRussia Project

Preliminary Conclusions. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

In the video “Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5”, an ALLATRA volunteer presented a detailed climate report, arguing that the world is on the brink of climate catastrophe.

Why should Alexander Dvorkin pay attention to this information? Alexander Dvorkin, the chief ideologue of the Russian pro-religious anticult organization RACIRS, which operates under the blessing of the Russian Orthodox Church (ROC), has denounced the ALLATRA volunteers and sought a ban on their activities in Russia, resulting in a global threat.

Why it matters. ALLATRA volunteers were forced to dismantle equipment that helped contain climate disasters in Russia and neighboring countries.

Only ALLATRA volunteers are engaged in comprehensive climate change research. Russia has faced several climate disasters in the past six months, and this is unfortunately only the beginning. It is especially worth noting that the most dangerous region on Earth right now is Siberia.

Preliminary Conclusions

Based on the analysis performed, the ALLATRA team of climate change and geodynamics experts has drawn preliminary conclusions. By comparing soil heating maps and near-surface temperature maps from recent years with the map of seismic anomalies, they have tentatively determined the current location and size of the mantle plume. It is assumed that the plume head is ascending south of the Gyda and Taimyr Peninsulas and is likely divided into several branches. The overall diameter of the magmatic flow in the ‘tail’ of the plume is estimated to range between 1,200 and 1,500 kilometers. Taking this into account, it can be assumed that the diameter of the magmatic flows’ spread likely doubles, reaching 2,500 to 3,000 kilometers. This area encompasses the tectonic structures of Western Siberia and the East Siberian Craton. It is probable that the plume head is currently eroding the East Siberian Craton, with magma spreading beneath its entire surface. This, in turn, may contribute to increased seismic activity in the Baikal region.

Preliminary Conclusions. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Going back to the data I’m (ALLATRA volunteer)  requesting from you, Alexander Leonidovich, for further analysis: what should be done with the information I have just shared? What practical steps should be taken? Now that we have roughly localized the mantle plume position, it is necessary to drill the wells for scientific research. These wells will allow monitoring the dynamics of the current Siberian mantle plume.

To understand how quickly and in which direction the plume is intruding, and how its head is spreading and penetrating cracks in the Earth's crust, it is essential to monitor geothermal and geophysical parameters at depth. This requires drilling new wells and regularly measuring temperatures, pressure, gas composition, markers of intensified magmatic processes, seismic noise, and other parameters within them.

Preliminary Conclusions. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Ten location points for drilling research wells have been identified for the studies. Criteria for selecting the wells were based on the following principles:

Location of the wells has been determined with due regard for the intersection of the greatest thermal and geodynamic anomalies associated with the intrusion and spread of the mantle plume’s head. Following this approach, one of the wells has been planned in the central part of a presumed ascent of the plume head, and seven wells have been planned along the perimeter of a presumed area of the plume head’s spread. An additional well has been planned in the Baikal region to monitor the active movement of magma beneath the East Siberian Craton, and one more well has been planned near the Kara Sea to monitor the plume's movement beneath the oceanic crust of the Arctic shelf.

The locations of the wells were chosen to optimize further seismic tomography work. This ensures that data obtained from seismic sensors in the wells would allow for the most complete and accurate construction of a three-dimensional model. Thus, the seismic sensor network in the wells should be positioned in such a way so as to most effectively capture the structure of the subsurface.

The well locations were selected also with regard for the possibility of delivering drilling equipment and ensuring transportation access. Given that northern regions of Western and Eastern Siberia are characterized by rugged terrain, swampy landscapes, a lack of roads, and extreme climate conditions, the selection of drilling sites was based on the availability of existing infrastructure necessary for scientific research, such as roads, settlements, and active drilling sites.

Preliminary Conclusions. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

Three drilling sites have been selected at currently active oil fields owned by Gazprom and Rosneft. The remaining sites are located near oil, gas, and other mineral deposits. It should be noted that if drilling is not feasible at the specified coordinates, the sites may be shifted 10 to 20 kilometers in any direction.

For comprehensive monitoring and study of the mantle plume, the following parameters must be collected from the research wells:

Temperature profiles: This involves measuring temperatures at various depths to analyze thermal anomalies.

Pressure: Determining pressure levels within the strata to assess hydrodynamic conditions.

Gas sampling: Collecting samples of gasses from deep strata to study their composition and potential influence of magmatic activity on them.

Seismic research: Installing seismic sensors to monitor seismic activity and create a detailed picture of internal structures.

Formation fluid composition: Analyzing the composition of formation fluids to identify potential thermal or magmatic contributions.

Geomechanical studies: Measuring stress in the rocks to analyze the lithosphere’s stress state.

Electromagnetic methods: Carrying out electromagnetic research to determine the electrical properties of the media associated with anomalous areas in the plume.

Preliminary Conclusions. Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin

The data collected will form a basis for developing a comprehensive model of the mantle plume dynamics and evaluating its impact on geological processes in Siberia.

More about Alexander Dvorkin in the video: Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

 on canal Voice of freedom

Los arqueólogos que se encuentran trabajando en la península siberiana de Taimyr han hallado antiguos ornamentos corporales consistentes en bezotes de piedra que se insertaban perforando la piel justo por debajo del labio inferior.

(via 1965 ZSRR Mi 3125 CTO (k16) - Klaser24.pl znaczki pocztowe filatelistyka)

Znaczek pocztowy: Lodołamacze „Taimyr” i „Vaigach”

Seria: 50. rocznica badań polarnych

Muskox Ovibos moschatus

Observed by taimyr, CC BY-NC

Igarka

Я родилась и до 7 лет прожила в г. Игарка, Красноярского края.

Мои родители родились там же.

А когда-то в свое время туда переехали мои бабушки и дедушки.

Некогда, Игарка была знаменита на весь мир, т.к. там располагался морской(!) и речной порт и лесопереробатывающий комбинат (ЛПК), древесина с которого шла на экспорт в Англию, Францию, Испанию и другие страны.

Бабушки и родители застали расцвет Игарки, а я, к сожалению, её увядание.

Застала ее лишение статуса краевого города и переквалифицирование из города в поселение района, закрытие ЛПК, морского порта, вымирание старого города, массовый отток населения, закрытие школы (одной из двух) и гостиницы, художественной школы в старом городе.

Единственное, что до сих пор функционирует - Музей Вечной Мерзлоты.

В свои 7 лет я очень болезненно переносила переезд из Игарки в Норильск, родители даже прятали от меня газеты, где упоминалась Игарка.

Город, где родились мои родители, тёти, дядя, сестры, братья и я, просто умирал на глазах, и мы ничего не могли с этим сделать.

#норильск #norilsk #шмидитиха #тундра #таймыр #schmiditikha #tundra #taimyr #запольярье #горыбезвершин #платопуторано #krsk #красноярскийкрай #природа #martianlandscape #urbanlandscape #city #северныйгород #abandonedbuildings (at Норильск) https://www.instagram.com/p/ChuMI3NoMwCu2cCo-4OTBNbbvCqPalEPLouRm40/?igshid=NGJjMDIxMWI=

Этот человек отвечает за мою безопасность? @namochil_mantu , тут каждый сам за сн#ебя #сольтаймыра #вкусныйтаймыр #норильск #вкустаймыра #таймыртуристический #туркластерарктический #ловимрыбунатаймыре #натаймырерыбаесть #taimyr #норникель (at Рудник Ангидрид) https://www.instagram.com/p/COFAWE5ngqn/?igshid=vraija6fclfv

It is important to know! Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

A detailed climate report about the world hanging by a thread due to climate catastrophe was presented by anALLATRA volunteer in the video Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5.

Why does Alexander Dvorkin need to hear this information?

Alexander Dvorkin - the main ideologist of the Russian pro-religious anticult organization RACIRS, which operates with the blessing of the Russian Orthodox Church (ROC) has branded ALLATRA volunteers and banned this organization in Russia, so the world hangs over the abyss. 

WHY? Because ALLATRA volunteers were forced to dismantle the equipment that contained climatic cataclysms both on the territory of Russia and in the countries bordering Russia. 

Already in half a year Russia has been exposed to climatic disasters. And unfortunately, this is only the beginning....

It is important to know that the most dangerous place on Earth is Siberia.

B. Soil Heating

Annual reports by Roshydromet include maps of soil temperature changes. For analysis, we used reports from 2021, 2022, and 2023. Each report analyzed soil temperature data at depths of 31.5 inches, 63 inches, and 126 inches (80 cm, 160 cm, and 320 cm). The most informative maps were those showing trends for the periods 1976–2021 and 1976–2023.

A comparison of these maps revealed a significant anomaly that emerged within two years (2021–2023) south of the Gyda  and Taimyr Peninsulas. This anomaly, highlighted with a red circle on the lower map, coincides with a region where anomalies in lithospheric velocities had been previously detected in seismic tomography models.

Given that this anomaly is observed at a depth of approximately 10 feet (3 meters), based on data from 466 meteorological stations across Russia, it can be inferred that the increased soil heating level is associated with the activation of processes caused by the intrusion of a secondary magmatic plume above the "head" of the primary plume.

Fig. 7: Soil heating trend maps derived from Roshydromet data.

Top: 1976–2021

Bottom: 1976–2023

It is important to know! Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

C. Near-Surface Air Temperature

Next, the near-surface air temperature was analyzed.

The most informative data was expected from maps for the winter season of 2023–2024. The map of average temperature anomalies for the period from December 2023 to February 2024 shows a temperature anomaly in the region of the Gyda and Taimyr Peninsulas, with increases ranging from 3.6°F to 8.1°F (2°C to 4.5°C).

Considering that this part of the territory shows significant warming during the winter period, despite being located in northern latitudes, it can be inferred that these thermal anomalies may also be associated with the intrusion of a magmatic plume.

Fig. 8: Monthly anomalies of near-surface air temperatures during the winter period

It is worth noting that on the maps of average monthly temperatures for January and July during the period from 2001 to 2022, this region also stands out.

This indicates that the temperature anomaly in this area has been continuously observed not only over the past two years but for the last 23 years, based on averaged data.

Fig. 9: January

Hydrometeorology and Ecology: Scientific-Theoretical Journal (Issue 70). St. Petersburg: RSHMU. 

Retrieved November 27, 2024, from 

July

It is important to know! Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

Our (ALLATRA) specialists have also proposed a hypothesis about a potential connection between processes occurring in the mantle plume under Siberia and seismic activity in Kamchatka.

As part of the analysis of geodynamic links between the Siberian plume and activity in Kamchatka, our (ALLATRA) specialists examined periods of peak seismic activity in Kamchatka over the past year. The most significant event occurred on August 18, 2024, at 7:10 a.m. UTC, with an epicenter in Kamchatka. It was a magnitude 7.0 earthquake at a depth of 18 miles (29 km), located 56 miles (90 km) east of Petropavlovsk-Kamchatsky.

An analysis of air temperatures in August 2024 revealed that the thermal anomaly during this period extended not only to the regions of Gyda and Taimyr but  also significantly further south, including the Baikal region and beyond. This suggests that an acoustic wave triggered by a deep intramantle explosion could have simultaneously caused seismic activation in Kamchatka and a heat release in an area along the boundary of Western and Eastern Siberia.

Fig. 10: Average monthly anomaly in August 2024, based on data from NASA’s Goddard Institute for Space Studies

It is important to know! Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

An analysis of average temperature maps for other months in 2023 and 2024 revealed that the locations of temperature anomalies varied significantly from month to month. Based on this data, no consistent trend could be identified.

Fig. 11: Monthly average temperature maps for 2024

More about Alexander Dvorkin in the video: Climate Has Put Us on the Same Side | An Appeal to Alexander Dvorkin | #5

 on canal Voice of freedom

Environmental assessment expedition on the coast of the Taimyr Penninsula. Russia 1989

Прошёл дурман парящих летних дней, Каскадов водопадов. Окутал вдруг туман бессолнечных ночей Отсутствием закатов. Пуржа за окнами, беснуются полярные ветра, Без жалости мотая фонари. Не скоро нас одарят лучики весеннего тепла. А ты твори и ...жди... #норильск #талнах #Таймыр #norilsk #talnah #taimyr #nikon #открываемсеверзаново @proektsever #мынорильск #водопад #waterfall https://www.instagram.com/p/B4fbLF1Crbe/?igshid=15zqtogx2gwu2