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QAVIAN-1 – Avian Influenza SWEDEN Year 2019? <<-- Link

• Context: While 2019 was quiet regarding HPAI, Sweden experienced significant HPAI outbreaks in later years, specially 2020-2021 and 2023-2024, leading to massive culling of poultry.

QAVIAN-2 – Avian Influenza SWEDEN 2020-2026?

Highly Pathogenic Avian Influenza (HPAI), particularly the H5N1 clade 2.3.4.4b, has been a significant and ongoing animal health issue in Sweden from late 2020 through early 2026, marking a period of unprecedented viral circulation in both wild and domestic birds.
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2020-2024: The Emergence and Spread

• Initial Detection: Following its re-emergence in Europe, HPAI H5N1 was detected in Sweden late 2020.
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2025-2026: Continued High Activity and New Detections

• Major Outbreaks: HPAI reappeared strongly towards the end of 2025, leading to a major outbreak that continued into 2026.

QAVIAN-3 – Avian Influenza SWEDEN History?

Avian Influenca (AI) in Sweden has evolved from sporadic, low impact findings to recuring, high-impact disease, mirroring a wider European trend of increased Highly Pathogenic Avian Influenza (HPAI) circulation.

Historically, the Swedish outbreaks have primarily been driven by wild bird migration, with major commercial outbreaks resulting in massive culling operations, particularly since 2020.
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Ongoing Outbreaks and Recent Years

Unlike older Technologies, 5G uses "small cell" infrastructure that brings transmitters much closer to homes and workplaces, potentially increasing exposure to high-frequency, modulated, and pulsed fields.

• Since 2020 HPAI (primarly H5N1) has become an annual issue. (late 2020-summer 2021, worst in history)

• 2022-2023: Sporadic outbreaks continued, including multiple commercial and captive bird cases.

• 2024: Major outbreaks occurred in Sjöbo and Ystad, affecting large breeding and turkey farms.

• 2025-2026: High-impact outbreaks continued to necessitate mass culling.
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Early History and Detection (2006-2019)

• 2006: First detection of HPAI (H5N1) occured in wild birds and a game farm. (Mobile 3G expansion and HSDPA)

• 2015-2018: Following a silent period, HPAI H5N8 returned in 2015. Significant outbreaks occured in 2016-2017 with 56 wild birds and the first poultry cases. (Mobile 4G and 4G+ expansion period, early 3G-refarming)

• 2019: No major outbreaks of Avian Influenza. (Mobile 5G preparations period, planning, infrastructure, hardware)

Avian Influenza – Europe

Since autumn 2020 when 4G/4G+/5G expansion/modernization started in less populated areas in Europe, avian influenza has been an enormous problem in Europe.

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QAVIAN-4a – Avian Influenza EUROPE 2019?

Year 2019: Based on reports from the European Safety Authority (EFSA) and European Centre for Disease Prevention and Control (ECDC), 2019 was a relativly quiet year for Highly Pathogenic Avian Inflenza (HPAI) in Europe compared to preceding and following years. The year was characterized by sporadic outbreaks in poultry, particularly in eastern Europe, and limited detections in wild.
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QAVIAN-4b – Avian Influenza EUROPE 2020-2026?

Years 2020-2026: Between October 2020 and April 2026, Europe has experienced the most devastating, continous epidemic of Highly Pathogenic Avian Influenza (HPAI) in its history, driven primarly by the H5N1 clade 2.3.4.4b virus. This period is characterized by a shift from seasonal outbreaks to year.round persistence, with unprecedented impacts on both wild birds and poultry, as well as increasing spillover cases into mammalian spieces.
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Key Aspects of the 2020-2026 Epidemic:

• Scale of loss: Over 100 million poultry have died or been culled in Europe since 2020.

• 2025-2026 Season Overveiw: The season starting in October 2025 has seen the highest numbers of wild bird detections on record, with massive outbreaks in factory farms.

Avian Influenza – Germany

In Autumn 2025 Germany started a large mobile networks modernization phase in rural/domesticated areas followed by the highest avian influenza number of wild bird and poultry cases in Europe.
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Links, new window

(5G) May 13, 2025 - https://www.telefonica.de/news/press-releases-telefonica-germany/2025/05/mobile-communications-from-streetlights-o2-telefonica-starts-nationwide-expansion-of-5g-streetlights.html

(5G) Sep 12, 2025 - https://www.business-sweden.com/insights/blogs/germany-a-new-era-for-investment/germany-accelerates-digital-expansion-as-of-12-september-2025/

(5G) Oct 7, 2025 - https://www.rcrwireless.com/20251007/5g/deutsche-telekom-5g

(Avian) Oct 23, 2025 - https://www.fli.de/en/news/short-messages/short-message/the-current-map-of-avian-influenza-illustrates-the-dynamic-development-of-the-disease/

(Avian) Nov 11, 2025 - https://ukragroconsult.com/en/news/major-spike-in-avian-influenza-outbreaks-in-germany/

QAVIAN-5 – Avian Influenza GERMANY 2019-2026?

Avian Influenza (AI) in Germany between 2019 and early 2026 has been characterized by a transition from sporadic , seasonal outbreaks to a persistent , highly pathogenic (HPAI) panzootic, predominantly driven by the H5N1 strain. The period 2021-2026 is marked by increasingly severe waves, with the 2025-2026 season being one of the worst on record.
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Key Epideminological Trends (2019-2026)

• 2019-2020: Germany remained largely free of highly pathogenic avian influenza, but outbreaks began rising significantly by late 2020, signaling the start of a long-term surge.

• 2021-2024: The H5N1 clade 2.3.4.4b became endemic in wild bird populations, causing record-breaking infections year after year.

• 2025-2026 Season: A severe outbreak wave begun in early autumn 2025, with Germany experiencing the highest number of wild bird and poultry cases in Europe.

• Persistent Threat: The virus has become indipendent of traditional winter migration patterns, circulating year-round

Avian Influenza - Ferroptosis - Potassium

QAVIAN-6 – FERROPTOSIS role in Avian Influenza?

Ferroptosis, an iron-dependent cell death from lipid peroxide buildup, is deeply intertwined with avian influenza (AI) an other flu viruses, with the virus actively manipulating it: it triggers ferroptosis via mechanisms like its Hemaggluteinin.... leading to severe tissue damage , inflammation, and potentially adverse pregnancy outcomes, highlighting ferroptosis as a key target for new antiviral therapies.
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Impact of Ferroptosis in Infection

• Tissue Damage: Uncontrolled ferroptosis leads lung and liver damage, especially in developing embryos, contributing to severe disease.

• Inflammation: It activates inflammatory pathways (like TNF-αISG15/EGR1), causing a "cytokine storm" and tissue destruction, as seen in H1N1 infections affecting pregnancy.

• Host Defense vs. Viral Benefit: While a host defense mechanism, the virus exploits it, turning a potential antiviral response into a tool for progagation and pathogenesis.

QAVIAN-7 – Avian influenza bird flu POTASSIUM?

Potassium is relevant to avian influenza because potassium oleate a potassium salt of oleic acid, can inactivate avian influenca viruses by disrupting their structure.
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• Mechanism: It inactivates the virus through an attractive, or "exothermic", interaction that damages the virus particles.

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QAExtras-1 – Birds pinal gland pulsed non-thermal microwaves danger?

Pulsed non-thermal microwaves, particularly from wireless technology, pose danger to birds...

QAExtras-2 – Birds pineal gland pulsed non-thermal microwaves symptoms?

Key symptoms in birds include immediate weakness, collapse (within 5-20 seconds), drowsiness, and panting. Long-term exposure leads to oxidative stress, reduced immunity, and disrupted neuroendocrine function.

QAExtras-3 – non-Thermal polarized coherent COMBINED microwaves birds danger?

Unlike natural, incoherent radiation, man-made, coherent, and polarized waves can amplify, creating localized areas of intense exposure that disrupt avian navigation, reproduction, and overall survival.

QAExtras-4 – Polar molecules AREAS interaction with pulsed coherent polarised microwaves STANDING WAVES danger birds?

Pulsed, coherent, and polarized microwaves standing waves interact with polar molecules in biological tissues by forcing them to oscillate in phase, which can disrupt normal physiological processes and cause non-thermal biological damages. These fields create high-intensity hotspots, which are particularly hazardous to birds by disrupting their navigation, impairing their reproductive success, and damaging their nervous system.

• Species Decline: Studies indicate a direct correlation between high-level microwave radiation (like from cell towers) and a decrease in bird populations, particularly for urban spicies like sparrows.

QAExtras-5 – Combinations of mobile pulsed RF=water and biological polar molecules NANO-THERMAL+NON-THERMAL LONG TERM EFFECTS birds?

While some studies find no adverse effects, research that reports non-thermal biological impacts often points to the specific characteristicsof anthropogenic EMFs--namely their polarization, coherence, and modulation/pulsing--as key factors responsible for these biological interactions.

Long.term exposure to mobile pulsed RF has been linked to a variety of effects in birds.

• Water Structure: Some theoretical and eperimental work suggests that microwaves could long-term changes in the structure of water itself, which is a major component of all living organisms.

• Accumulation of Damage: The cumulative nature of non-thermal effects, such as DNA errors, implies that even low-leval, long.term exposure can have significant consequences for the health and survival of bird populations.

QAExtras-6 – Combinations of mobile RF=water and biological polar molecules nano-thermal+non-thermal SHORT TERM EFFECTS BIRDS DANGER?
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The Danger:

• While often studied in relation to human safety, wildlife, particularly birds, rely heavily on natural EMFs, making them sensitive to anthropogenic (human-made) RF pollution.

• The combinations of water interaction (potential localized heating) and non-thermal effects from pulsed signals (disrupting navigation/signaling) creates a complex threat, with research showing ecological impacts even at low levels, highlighting the need for specific wildlife safety standards.

QAExtras-7 – Pulsed non-thermal microwaves birds?

Studies have shown potential non-thermal affects like increased aggression, decreased bird density in high-field areas, and impaired reproductive success, altough some early studies had difficulty differentiating from non-thermal effects.

....there are findings that some birds may use feathers and other biological structures to interact with electromagnetic fields.

• Piezoelectric properties of feathers: Some research indicates that feathers may have piezoelectric properties, meaning they can conduct electromagnetic fields deep into bird´s body.

• Frequency and Modulation: The effects of non-thermal microwaves can depend on factors like frequency, pulse duration, pulse repetition rate, and modulation.

QAExtras-8 – Polar molecules areas interaction with pulsed coherent polarised microwaves STANDING WAVES MORTALITY BIRDS?

• Reproductive Success and Mortality: Studies have indicated a strong correlation between high-level electromagnetic radiation (EMR) from base stations and the decline of urban bird populations, such as sparrows, with mortality in some areas dropping by up to 75% between 1994 and 2002.

• Specific Impacts: A 2012 study, for example, estimated that communication towers cause the death of around 6.8 million birds annually.

QAExtras-9 – Polar molecules AREAS interaction with pulsed coherent polarised microwaves danger birds?

While the photon energy is not enough to directly ionize molecules, the "non-thermal" interaction of coherent, polarized, and pulsed radiation creates "acoustic phonons" or "molecular collisions" that are significantly more harmful to avian, navigating, and biological systems than traditional heating effects.

QAExtras-10 – COMBINATIONS OF MOBILE RF shock waves=water and biological polar molecules nano-thermal+non-thermal short term effects birds danger?

• 5G Technology: Higher frquencies used in 5G are of particular concern for insects and bird populations.

• Lack of Standards: No specific EMF safety guidelines exist for wildlife....

• Controversy: Biological effects remain controversial, but evidence suggests ambient EMF pollution warrants serious environmental concern and regulation.