Gravity anomaly

Bouguer anomaly in New Jersey

A gravity anomaly , also known as a gravitational anomaly , is the local deviation of the gravitational acceleration from the theoretical normal value on a reference surface , which in the case of the earth is usually the reference ellipsoid .

causes

On Earth, gravity anomalies can reach up to ± 200  milligals  = ± 0.2  Gal  = ± 0.002 m / s², which is 0.02 percent of mean gravity . They provide information about irregularities in the mass distribution in the subsurface , which can have several causes:

1. unequal depth of the earth's crust (see also isostasy )
2. variable density contrast between the earth's crust and mantle
3. different or crooked rocks in the earth's crust
4. Deviation of the densities from their average value
5. Pore ​​water and storage of raw materials ( ores , hydrocarbons ).

The first two phenomena mentioned cause long-wave (regional) anomalies, while aspects 3–5 mainly have local characteristics.

Gravity measurement goals

The measurement of gravity anomalies is often used to locate of deposits used. It is also a means of researching the deep structure of the earth's crust, supporting the methods of geoseismics .

Another application is geoid determination - the determination of the level surfaces of the earth's gravity field . The geoid deviates globally by ± 50 meters (maximum 110 m) from the earth's ellipsoid and can be determined by well-distributed gravity measurements with cm to dm accuracy.

For this and also for other planets , satellite geodesy comes into play, in which the orbits of artificial satellites are tracked in which the gravity anomalies are reflected in a weakened manner. The required field continuation downwards is restricted by the inversion problem of potential theory .

In flat countries, the method of exploration of deposits using gravity measurements with gravimeters is particularly economical. In the mountains, however, the effects of the terrain on gravity are difficult to take into account. Seismic methods for detecting underground density variations are therefore more favorable there.

Corrections and reductions of the measured values

In gravimetric measurements , the acceleration due to gravity is measured. The measured value consists of the following components:

• Normal gravity : Calculated from latitude and ellipsoidal height with globally adjusted parameters.
• Rate correction : Correction of the temporally variable influences on gravimetric measurements, especially instrument drift and earth tides .
• Latitude correction : Correction of the deviation in the normal field caused by the geographical latitude . See international formula of gravity .
• Altitude or open air reduction : Correction of the deviations that are caused by different heights above sea level of the measurements.
• Bouguer plate : Correction of the gravity effect of an infinitely extended plate of thickness h.
• Topographical reduction : correction of the local mass attraction of the terrain (mountains or valleys); takes place with a digital terrain model .
• Proportion of density inhomogeneities in the subsurface.