The Impact of Soil Moisture on Metal Detecting: Uncovering the Science Behind Your Finds

High Plains Prospectors

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Supporting Vendor
Nov 15, 2023
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Olathe, KS
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Minelab Equinox 900, XP Deus II, Garrett AT Pro
The Impact of Soil Moisture on Metal Detecting: Uncovering the Science Behind Your Finds



Other than the obvious fact that it is much easier to extract a target from the ground with moist soil, many metal detectorist claim that drier soil conditions affect how well their metal detector performs in a negative way. While most of us agree too much water is also a hinderance creating a sloppy mess, too much can have a negative affect too. Let's dig into the science of the subject and see if we can figure out why.

For metal detector enthusiasts, the thrill of uncovering coins, relics, and jewelry is what drives many to the great outdoors. However, the success of these hunts can depend heavily on one often-overlooked factor: soil moisture content. Beyond simply making it easier to extract targets from the ground, moisture levels can significantly influence the performance of metal detectors. Too little or too much moisture can have a negative affect. Let’s explore how varying moisture conditions can enhance or hinder your treasure-hunting efforts.

The Basics of Soil Moisture and Metal Detection​

Moist soil has an inherent advantage when it comes to metal detecting. The presence of water improves the soil's conductivity, allowing electromagnetic fields (EMF) from the detector to penetrate deeper and more effectively locate buried metallic objects. However, this isn’t a straightforward equation. While wet soil can amplify signal detection, it can also introduce complexities, particularly when it comes to mineralization and interference from unwanted signals.

The Role of Soil Mineralization​

When the soil is saturated, water interacts with the minerals present, especially in highly mineralized areas. This interaction can enhance the detection of unwanted signals, particularly from iron. Heavily contaminated sites may emit stronger signals that can mask the presence of desirable targets. In contrast, drier soil conditions tend to minimize these effects, making it easier to distinguish between valuable finds and trash.

Minelab Manticore Metal Detector with the M15 and M8 Coils

The Minelab Manticore Metal Detector Make Metal Detecting Mineralized Soil a Breeze!

Soil Composition​

Soil composition is an important thing to consider when considering the effect of moisture when metal detecting. For instance, the denser the soil material, the higher the magnetic induction strength required to penetrate it. Consider metal detecting solid rock. Solid rock tends to block the magnetic field where as porous soil allows it to reach greater depths. Thus, the looser, moist soil may allow the metal detector to penetrate deeper. Too much water may hinder the effect of the detector. Additionally, this may vary in clay versus topsoil as the water affects the soil differently.

Oxidation and Target Activation​

The relationship between moisture and target oxidation is another critical factor. Wet conditions can activate certain metals, especially iron and aluminum, as water aids in the oxidation process. This activation can create stronger signals that your detector picks up. However, it’s important to note that metals like silver and gold do not oxidize in the same way, and while moisture can enhance the detection of iron, it may not offer the same benefits for these precious metals.

Detection Depth and Signal Clarity​

While moist soil typically improves conductivity, excessive moisture can lead to a decline in detection depth. Once soil transitions from damp to wet, the benefits of conductivity can be outweighed by the challenges posed by increased soil reactivity. High moisture levels can enhance soil mineral ionization, which may disrupt EMF penetration and muddle target identification.



"In practical terms, this means that while moist soil might seem ideal, too much water can hinder your ability to locate deeper targets."



Tips for Detecting in Various Moisture Conditions​

Wet Conditions​

If you find yourself metal detecting in consistently moist or wet areas, consider the following:

  1. Use Waterproof Detectors: If you’re hunting near water, a waterproof or water-resistant detector will be essential.
  2. Ground Balancing: Proper ground balancing can help filter out false readings caused by excess moisture and mineralization. This step is crucial for achieving accurate detection.
  3. Watch for Trash: While wet soil can improve conductivity, it can also increase the likelihood of detecting modern debris. Stay vigilant for signals that might be more about trash than treasure.

Dry Soil Strategies​

Metal detecting in dry conditions presents its own challenges, as signals struggle to travel through loose, dry dirt. Here are some strategies to enhance your detecting game:

  1. Adjust Sensitivity: Lowering the sensitivity of your detector can help minimize interference from dry air pockets and focus on deeper targets.
  2. Increase Depth Settings: By adjusting the depth setting, you can improve the chances of detecting buried objects that might otherwise be missed in dry conditions.
  3. Be Patient: Dry soil requires a more methodical approach. Take your time to thoroughly scan areas, as weak signals can easily be overlooked.

Special Considerations for Beach Detecting​

Beach conditions can be particularly unique due to the presence of metallic salts, which become conductive only in the presence of moisture. A balance of water is necessary to dissociate these salts into ionic components that a detector can recognize. Detecting on sandy beaches can yield great finds, but awareness of these environmental factors will enhance your success.

Conclusion​

Understanding how soil moisture content affects metal detecting can significantly enhance your treasure-hunting experience. By adapting your strategies to the conditions at hand, you can improve your odds of finding hidden treasures, whether in wet, damp, or dry environments. So, next time you grab your metal detector, consider the soil beneath your feet—it just might lead you to your next big find! Happy hunting!
 

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The Basics of Soil Moisture and Metal Detection​

Moist soil has an inherent advantage when it comes to metal detecting. The presence of water improves the soil's conductivity, allowing electromagnetic fields (EMF) from the detector to penetrate deeper and more effectively locate buried metallic objects. However, this isn’t a straightforward equation. While wet soil can amplify signal detection, it can also introduce complexities, particularly when it comes to mineralization and interference from unwanted signals.
There is no soil property that will ever enhance the detector's TX magnetic field. Soil will always always reduce the field penetration compared to air. There are 2 mechanisms: Permeability due to iron mineralization in the soil, and conductivity due to ionic salts in the soil.

Mineralization deflects the TX field flux lines out toward the sides of the coil and reduces depth. Conductive salts create eddy currents in the soil which oppose the TX field. Moisture in the soil makes the salt issue worse and doesn't affect the permeability issue.

However, some people have noticed that they can detect deeper in moist soil. The likely reason for this is that conductive salts can also increase the apparent diameter of a target. Target eddy currents tend to push themselves out to the perimeter of the target, and a physically larger target will therefore create a stronger return signal. Normally, once the eddies have gotten to the edge of the target they can go no further. But if the soil is somewhat conductive, now the eddies can push themselves beyond the edge of the target and now the target looks larger, and can therefore be detected deeper.

Eric Foster once showed that targets buried in wet salt sand could be detected deeper than in air. "Ordinary" soils don't tend to be nearly this conductive, but most soils have some conductivity and fertilizing can increase the ionic salts considerably. And this is where moisture helps a lot.

Soil Composition​

Soil composition is an important thing to consider when considering the effect of moisture when metal detecting. For instance, the denser the soil material, the higher the magnetic induction strength required to penetrate it. Consider metal detecting solid rock. Solid rock tends to block the magnetic field where as porous soil allows it to reach greater depths. Thus, the looser, moist soil may allow the metal detector to penetrate deeper. Too much water may hinder the effect of the detector. Additionally, this may vary in clay versus topsoil as the water affects the soil differently.
The only thing that would affect the magnetic field is the permeability of the medium. That is, the amount of iron mineralization. Density has no effect. Back in the 1960s Ken White used to show how his detectors could detect through solid concrete block! This was nonsense, as it was the same as detecting through air.
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Oxidation and Target Activation​

The relationship between moisture and target oxidation is another critical factor. Wet conditions can activate certain metals, especially iron and aluminum, as water aids in the oxidation process. This activation can create stronger signals that your detector picks up. However, it’s important to note that metals like silver and gold do not oxidize in the same way, and while moisture can enhance the detection of iron, it may not offer the same benefits for these precious metals.
Iron targets are a different breed. They have both a magnetic response (due to their high permeability) and also an eddy response. As an iron target corrodes in the soil, iron oxides leach out into the surrounding soil and increases the magnetic signature. At the same time, surface corrosion tends to disrupt eddy flow and reduces the eddy signature. Therefore, heavily corroded iron can usually be detected deeper but also tends to look a little more like iron, although for big pieces (say, an axe head) it will still tend heavily toward non-ferrous. Multifrequency will often help sort this out.

Most non-ferrous metals don't corrode enough to alter their eddy responses. Certainly not silver & gold, and probably not aluminum. Corroded aluminum is more likely to have a weaker eddy response due to (a) being thinner and (b) surface disruption. Corroded copper might slightly increase the ionic salts surrounding it (see above), so that's a possibility.
 

The Role of Soil Mineralization

When the soil is saturated, water interacts with the minerals present, especially in highly mineralized areas. This interaction can enhance the detection of unwanted signals, particularly from iron. Heavily contaminated sites may emit stronger signals that can mask the presence of desirable targets. In contrast, drier soil conditions tend to minimize these effects, making it easier to distinguish between valuable finds and trash.

This is why I like detecting iron infested sites during dry weather where neatness isn't an issue. I.e., farm fields, wooded areas, etc.
 

Im going to give my experience from 33 yrs detecting for gold in the Australian Victorian Goldfields.
Moisture and temperature plays a huge role.
I made a point of returning to patches during different weather and seasons.
I have detected ground for nuggets that when dry in summer I got great depth and minimal ground noise. Then returned a number of times during different weather, wet, hot, dry, cold all mixes.
Some places on return were so noisy wet with my Pulse Induction that I walked away.
Some places wet I found great gold , but upon returning dry the place was a walk away with ground noises driving me mad and noticed a big reduction in all targets depth.
Sometimes it was just the difference of dry, but the temperature was better in the crazy heat of summer or the opposite of the really cold of winter.
Personally I got to not care about following the science of which was better or worse. I in the field, experiencing it saw that there was no rule "better dry" or "better wet" "better hot" "better cold".
If you had a patch and thought it was dead, forget it, so what if you gridded left right and centre then declared it done. So, so many I gridded to death in various moisture levels, seasons and temps that I thought were kaput absolutely jumped to life upon a return under different circumstances.
Some of my best ever patches and returns came from returns in different moisture levels and temperatures. đź‘Ť
 

The Role of Soil Mineralization

When the soil is saturated, water interacts with the minerals present, especially in highly mineralized areas. This interaction can enhance the detection of unwanted signals, particularly from iron. Heavily contaminated sites may emit stronger signals that can mask the presence of desirable targets. In contrast, drier soil conditions tend to minimize these effects, making it easier to distinguish between valuable finds and trash.

This is why I like detecting iron infested sites during dry weather where neatness isn't an issue. I.e., farm fields, wooded areas, etc.
That makes a lot of sense. Great input!
 

Im going to give my experience from 33 yrs detecting for gold in the Australian Victorian Goldfields.
Moisture and temperature plays a huge role.
I made a point of returning to patches during different weather and seasons.
I have detected ground for nuggets that when dry in summer I got great depth and minimal ground noise. Then returned a number of times during different weather, wet, hot, dry, cold all mixes.
Some places on return were so noisy wet with my Pulse Induction that I walked away.
Some places wet I found great gold , but upon returning dry the place was a walk away with ground noises driving me mad and noticed a big reduction in all targets depth.
Sometimes it was just the difference of dry, but the temperature was better in the crazy heat of summer or the opposite of the really cold of winter.
Personally I got to not care about following the science of which was better or worse. I in the field, experiencing it saw that there was no rule "better dry" or "better wet" "better hot" "better cold".
If you had a patch and thought it was dead, forget it, so what if you gridded left right and centre then declared it done. So, so many I gridded to death in various moisture levels, seasons and temps that I thought were kaput absolutely jumped to life upon a return under different circumstances.
Some of my best ever patches and returns came from returns in different moisture levels and temperatures. đź‘Ť
I love the feedback. Thanks so much!
 

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