Consultancy
GEOBIOLOGY ∼
your health starts where you sleep
Find out how geological faults and geomagnetic
networks affect your sleep.
INVISIBLE GEOPHYSICAL PHENOMENA
Learn about the natural factors that influence your daily wellbeing and quality of life.
Your body feels what you cannot see.
GEOLOGICAL FAULTS
Fractures in the Earth’s crust can alter the local magnetic field and generate gamma radiation, which can weaken your defences.
WATER CURRENTS
Underground flows generate natural electromagnetic fields through friction. Sleeping above them is associated with chronic fatigue.
GEOMAGNETIC NETWORKS
Hartmann and Curry lines are global energy networks. The points at which these lines intersect (known as nodes) are areas of high geopathogenic intensity as they coincide with water currents.
Preventive healthcare
The impact on your health
We spend a third of our lives sleeping. This is when our cells regenerate. Prolonged exposure to pathogenic zones can disrupt this vital process.
Common symptoms include persistent insomnia, headaches upon waking, teeth grinding, and a weakened immune system. The first step towards healing is identifying these zones.
OUR MEASUREMENT PROTOCOL
A comprehensive approach to restoring your harmony.
Accurate detection
We use Letcher antennas and professional magnetometers to identify Hartmann and Curry lines, as well as underground currents, in your home.
Analysis and mapping
We create a detailed plan of your home or bedroom, marking the ideal neutral zones for rest and the zones free from electromagnetic pollution. This is known as a ‘health map’.
Bespoke solution
If the space does not allow for relocation, we can suggest the best furniture layout or install geoholograms.
SOLUTIONS FOR YOUR COMFORT
We pinpoint the problem and make real changes that will improve your quality of life.
CONSCIOUS RELOCATION
This is the most effective and natural solution. Moving your bed to a ‘neutral zone’ that is free from terrestrial radiation will guarantee an immediate recovery.
PASSIVE HARMONIZATION
We use diffusers and geometries to modulate the intensity of the lines when it is not possible to move furniture.
BIOSWITCHES
Automatic network disconnectors (bioswitches) are installed to eliminate electromagnetic pollution while you sleep.
FAQ
How long does a geobiological study consultation take?
The duration of a measurement consultation depends on several factors.
– The size and complexity of the space to be measured; A large house or a house with several floors will require more time than a small flat.
Environmental conditions: The presence of basements, garages, attics, etc.
The scope of the measurement: If you only want to measure the main rooms, the consultation will be quicker than if you want to measure the entire house.
I have been diagnosed with electrohypersensitivity (EHS). Should I take any additional measures?
It is important to consult a medical specialist for an accurate diagnosis. If EHS is confirmed, there are several steps you can take to minimise your exposure to electromagnetic fields and enhance your well-being. Some of these measures include:
Using products designed for people with EHS: There are paints, clothing, footwear, glasses and other products on the market that are designed to reduce exposure to electromagnetic radiation. You can find more information about these products in our Products section.
Adopt a healthy lifestyle: A balanced diet, regular exercise and relaxation techniques such as yoga or meditation can strengthen the immune system and improve overall health, which may positively impact EHS symptoms.
Is it compatible with the medication I am taking?
Se desconocen las incompatibilidades entre las medidas para minimizar los efectos de los fenómenos terrestres y el uso del material recomendado con la medicación. Sin embargo, si tienes alguna duda al respecto, es recomendable que consulte con su médico de cabecera.
¿Cada cuánto debo realizar una medición?
En general, se recomienda realizar una medición de geobiología al menos una vez al año, especialmente si ha habido cambios significativos en tu vivienda o lugar de trabajo, como reformas, mudanzas, movimiento del mobiliario, cambio de dormitorio, etc.
Además, si experimentas algún cambio en tu salud que pueda estar relacionado con la exposición a los factores ambientales, es recomendable realizar una nueva medición para evaluar la situación.
¿Afectarán los cambios efectuados al funcionamiento normal de los aparatos electrónicos?
No, las modificaciones que se realizan no afectan al funcionamiento de teléfonos móviles, tablets, portátiles u otros electrodomésticos, ni interfieren con las comunicaciones.
Las corrientes y otros fenómenos terrestres sí pueden alterar y dañar a los aparatos electrónicos, debido a la sobrecarga de información.
RADON GAS MEASUREMENTS
Radon gas is a naturally occurring, colourless, odourless radioactive gas that comes
from the decay of uranium in the soil. In areas with fissured granite or limestone soils,
such as parts of the Costa del Sol, it can seep into homes.
The WHO manual
After tobacco, radon is the second leading cause of lung cancer in the general population. Epidemiological studies have convincingly demonstrated a link between exposure to indoor radon and lung cancer, even at relatively low levels typically found in residential buildings.
Health and safety: Radon gas thresholds
Current Spanish regulations (CTE DB-HS 6) set a reference level of 300 Becquerels per cubic metre (Bq/m³), but the World Health Organisation (WHO) recommends keeping exposure below 100 Bq/m³ to minimise chronic risk.
Also, current regulations (Royal Decree 1029/2022, which transposes Directive 2013/59/Euratom) require workplaces to measure and control radon levels, using an annual average reference value of 300 Bq/m³.
In our biohabitability audits, we adhere to the precautionary principle: our goal is not merely to comply with the legal minimum, but to ensure that your home’s indoor air is completely free of natural radioactivity and safe for you and your family.
HEALTHY BUILDING
WHO
GUIDELINES
EUROPEAN REGULATIONS
STEP 1
Detection and measurement:
As radon cannot be smelled or seen, the only way to detect its presence is to measure it.
A. Instant digital measurement.
B. If gas is present, a kit is sent for evaluation by an approved laboratory.
STEP 2
Strategic ventilation:
A· Cross ventilation: Opening windows on opposite sides of the house quickly reduces concentrations.
B. Mornings and evenings: Radon tends to accumulate overnight. It is critical to ventilate thoroughly first thing in the morning.
STEP 3
Action on the structure (physical barriers):
A. Sealing cracks: Check and seal cracks in the floor slab, expansion joints, and pipe penetrations using elastic materials.
B. Radon membranes: In renovations or basements, specific high-density polyethylene sheets are installed.
C. Suction chambers: In severe cases, a small extractor fan is installed to draw air out from under the house.
Video from the American Lung Association. Copyrighted©
FAQ ABOUT RADON
What is radon gas?
Radon (²²²Rn) is a naturally occurring, colourless, odourless and tasteless radioactive gas, which makes it undetectable to the human senses.
Origin and radioactive nature
Radioactivity is the process by which an unstable atomic nucleus emits energy in the form of particles or radiation as it decays. Radon is constantly generated by the natural decay of uranium, which is present in the Earth’s crust, in rocks (especially granite and volcanic rocks), and in water.
Due to its gaseous nature, radon moves from the subsoil to the surface, either diluting into the atmosphere or accumulating in enclosed spaces.
The paradox of modern construction
Although radon has always been part of our environment, its presence inside buildings has only become a public health challenge in recent decades. This is due to two main factors:
- Energy efficiency: Today’s buildings are designed for maximum energy efficiency and savings. While this reduces consumption, inadequate air renewal can cause the gas to become ‘trapped’, resulting in dangerous concentrations that were not present in older, more permeable homes.
- Accumulation effect: As it is a dense gas, it tends to concentrate in the lower areas of buildings, turning basements, ground floors, and poorly ventilated spaces into critical exposure points.
At BioWellness, we recognise the importance of balancing energy efficiency with geo-environmental health. Our analysis identifies these accumulation points in order to restore the purity and balance of the air you breathe.
How reliable are our radon analyses?
To ensure the safety of our customers, we only work with laboratories that strictly adhere to the Nuclear Safety Council’s (CSN) protocols. Our associated analysis centre is accredited to ISO/IEC 17025, the global quality standard for testing laboratories. This requirement, as set out in guideline GS-11.01, ensures that our results are accurate, traceable and officially recognised by health and building authorities.
How does radon enter buildings?
Radon gas has a high diffusion capacity. Since it is present in the air beneath the ground, it migrates towards the surface, seeking areas of lower pressure. Since the interior of homes usually has slightly lower pressure than the ground (due to the chimney effect and air conditioning), buildings act as natural gas extractors.
- Radon does not require large openings; its atomic nature enables it to penetrate micro-cracks and structural discontinuities.
- Structural discontinuities: Cracks in concrete floors and fissures in load-bearing walls or enclosures.
- Joints: Construction joints and joints between the floor and the wall (cold joints).
- Chimney effect in chambers: Spaces in sanitary slabs or suspended floors, as well as internal cavities in hollow brick walls.
- Technical wall penetrations: Gaps and spaces around plumbing, sanitation and electrical connections.
- Water supply: Emanations from untreated well water (gas released when using showers or taps).
Origin and source:
Although certain stone-based building materials can emit radon, the technical evidence in the geological context of Spain is clear: 80% of radon emissions come directly from the subsoil, while the remaining 20% is attributed to the materials used in construction.
At what level is radon considered a health risk?
Radon concentration in the air is measured in becquerels per cubic metre (Bq/m³). While the average indoor level in the UK is between 40 and 50 Bq/m³, it is important to recognise when these levels require technical intervention.
Reference and action levels
According to the Nuclear Safety Council (CSN) and the World Health Organisation (WHO) guidelines, there are two key decision-making thresholds:
Existing homes: The action level is set at 300 Bq/m³. Exceeding this figure requires corrective measures to be implemented as a matter of priority.
New buildings: The design target for new homes is stricter at 100 Bq/m³.
The concept of biological safety
It is important to understand that 300 Bq/m³ does not represent a clear distinction between ‘safe’ and ‘dangerous’ air, but rather a technical action level. From a biohabitability perspective, there is no zero risk threshold; therefore, the lower the radon concentration in your home, the greater the protection for your health and that of your family.
Health impact and prevention
The scientific evidence is clear: the risk of developing lung cancer increases by around 16% for every 100 Bq/m³ increase in long-term exposure.
The good news is that current mitigation technologies effectively reduce radon levels in the vast majority of properties to 30 Bq/m³, in line with healthy building standards. At BioWellness, however, our goal is to go beyond compliance with the standard and transform your home into an environment that optimises health.
How can I monitor radon gas levels in my home after they have been reduced?
1. Continuous digital monitoring:
Ionising pulse chamber sensor technology enables you to observe the evolution of the gas in real time.
Advantages: You can set alerts on your mobile phone if levels exceed 100 Bq/m³.
Data analysis: These devices display daily, weekly and monthly graphs. This is important because a single measurement may appear low, but the weekly average could reveal dangerous peaks at night.
2. Annual contrast tests (passive detectors).
Even if you have a digital monitor, it is good healthy building practice to take a ‘long-term’ measurement (three months) every year, preferably in winter.
Reason: digital monitors can become uncalibrated over time. Sending a nuclear tracer detector to a laboratory for analysis provides an external audit to confirm that the mitigation system (sheets or extractors) is still working as effectively as on the first day.