In geology, 3D fold evolution is the study of the full three dimensional structure of a fold as it changes in time. A fold is a common three-dimensional geological structure that is associated with strain deformation under

stress Stress may refer to: Science and medicine * Stress (biology), an organism's response to a stressor such as an environmental condition * Stress (linguistics), relative emphasis or prominence given to a syllable in a word, or to a word in a phrase ...

. Fold evolution in

three dimensions Three-dimensional space (also: 3D space, 3-space or, rarely, tri-dimensional space) is a geometric setting in which three values (called ''parameters'') are required to determine the position of an element (i.e., point). This is the informa ...

can be broadly divided into two stages, namely fold growth and fold linkage. The evolution depends on fold kinematics, Fold mechanism,Suppe, J., & Medwedeff, D. A. (1990). Geometry and kinematics of fault-propagation folding. Eclogae Geologicae Helvetiae, 83(3), 409–454.Cosgrove, J. W. (1999). Forced folds and fractures: An introduction. Geological Society, London, Special Publications, 169(1), 1–6. as well as a reporting of the history behind folds and relationships by which fold age is understood. There are several ways to reconstruct the evolution progress of folds, notably by using depositional evidence, geomorphological evidence and balanced restoration.Grasemann, B., & Schmalholz, S. M. (2012). Lateral fold growth and fold linkage. Geology, 40(11), 1039–1042.

3D fold growth

Under compressional stress, folds grow in all three dimensions, including vertical fold amplification and lateral fold propagation, both along fold crest and perpendicular to fold crests. Three-dimensional fold growth can be observed in areas like the

Zagros Mountains The Zagros Mountains ( ar, جبال زاغروس, translit=Jibal Zaghrus; fa, کوه‌های زاگرس, Kuh hā-ye Zāgros; ku, چیاکانی زاگرۆس, translit=Çiyakani Zagros; Turkish: ''Zagros Dağları''; Luri: ''Kuh hā-ye Zāgr ...

Iraq Iraq,; ku, عێراق, translit=Êraq officially the Republic of Iraq, '; ku, کۆماری عێراق, translit=Komarî Êraq is a country in Western Asia. It is bordered by Turkey to the north, Iran to the east, the Persian Gulf and K ...

and

Iran Iran, officially the Islamic Republic of Iran, and also called Persia, is a country located in Western Asia. It is bordered by Iraq and Turkey to the west, by Azerbaijan and Armenia to the northwest, by the Caspian Sea and Turkmeni ...

as well as

Wheeler Ridge Wheeler Ridge is an unincorporated community in the southwestern San Joaquin Valley, within Kern County, California. It is at the junction of the valley floor and the Wheeler Ridge landform of the Tehachapi Mountains. Geography The community is ...

California California is a state in the Western United States, located along the Pacific Coast. With nearly 39.2million residents across a total area of approximately , it is the most populous U.S. state and the 3rd largest by area. It is also the m ...

, United States.

Fold structure

The vertical dimension of a fold can be described as an amplitude. The horizontal dimension of a fold can by described by wavelength and

hinge line A hinge line is an imaginary longitudinal line along the dorsal edge of the shell of a bivalve mollusk where the two valves hinge or articulate. The hinge line can easily be perceived in these images of a mussel shell and an ark shell Ark cla ...

of a fold. As a fold grows in three-dimension, amplitude, wavelength and the length of the hinge line will increase.

Sheath fold

Sheath folds form in areas where rocks react differently to simple shear, due to variations in competence across layers. The hinge line is severely bent in sheath fold.

Fold kinematics

Under force, rock strata buckle occurs by one of two kinematic processes, either by hinge migration or by limb rotation.Ahmadi, R., Ouali, J., Mercier, E., Mansy, J. L., Lanoë, B. V. V., Launeau, P., ... & Rafini, S. (2006). The geomorphologic responses to hinge migration in the fault-related folds in the Southern Tunisian Atlas. Journal of Structural Geology, 28(4), 721–728.

Hinge migration

A fold hinge can migrate when strata are folded by hinge migration but the hinge is fixed when strata are folded by limb rotation.Ortner, H., Kositz, A., Willingshofer, E., & Sokoutis, D. (2010, May). Geometry of growth strata in a transpressive fold belt in field and analogue model: Gosau Group at Muttekopf, Northern Calcareous Alps, Austria. In EGU General Assembly Conference Abstracts (Vol. 12, p. 6316). At least one of the fold hinges in the whole fold structure is mobile during three dimensional fold growth.Dahlstrom, C. D. (1990). Geometric Constraints Derived from the Law of Conservation of Volume and Applied to Evolutionary Models for Detachment Folding: Geologic Note:(1). AAPG Bulletin, 74(3), 336–344. For example, indicated by kinematic models, the structure of a fault-propagation folds should contain three anticlines/synclines with migrating hinges and 1 anticline with fixed hinge limb rotation. Hinge migration can be distinguished from limb rotation by several structural and geomorphological features. Growth strata, also known as syntectonic strata, are sedimentary layers that are deposited at the same time as folding. These layers are characterized by decreasing thickness of strata towards crest of an

anticline In structural geology, an anticline is a type of fold that is an arch-like shape and has its oldest beds at its core, whereas a syncline is the inverse of an anticline. A typical anticline is convex up in which the hinge or crest is the ...

(fig 1). They exist in various geometric patterns. The variation in geometric patterns can be attributed to fold kinematics, rate of uplift and sedimentation rate.Ahmadi, R., Mercier, E., & Ouali, J. (2013). Growth-strata geometry in fault-propagation folds: a case study from the Gafsa basin, southern Tunisian Atlas. Swiss Journal of Geosciences, 106(1), 91–107. A

knickpoint In geomorphology, a knickpoint or nickpoint is part of a river or channel where there is a sharp change in channel slope, such as a waterfall or lake. Knickpoints reflect different conditions and processes on the river, often caused by previous ...

is a morphological term for a section of a present or abandoned river valley that shows an abrupt change in slope, and can be attributed to differential erosion or structural deformation. They are usually associated with waterfalls and lakes. For the definition of wind gaps, please see subsection #streams deflected around the nose of fold.

Fold mechanism

Folds that may experience prolonged 3D growth can be divided into two groups according to their causes, namely

detachment fold A detachment fold, in geology, occurs as layer parallel thrusting along a decollement (or detachment) develops without upward propagation of a fault; the accommodation of the strain produced by continued displacement along the underlying thrust re ...

and forced fold. They are mainly differentiated by the presence of major fault control on fold structure in forced folds, and the absence of it in detachment folds. Fold causes that do not contribute to significant fold growth in all three dimensions, such as en-echelon folds, drag folds and rollover anticline are not in these groups. Understanding the evolution of folds is important because it helps

petroleum geologist A petroleum geologist is an earth scientist who works in the field of petroleum geology, which involves all aspects of oil discovery and production. Petroleum geologists are usually linked to the actual discovery of oil and the identification of ...

s to gain a better understanding on the distribution of

structural trap In petroleum geology, a trap is a geological structure affecting the reservoir rock and caprock of a petroleum system allowing the accumulation of hydrocarbons in a reservoir. Traps can be of two types: stratigraphic or structural. Structural trap ...

s of

hydrocarbon In organic chemistry, a hydrocarbon is an organic compound consisting entirely of hydrogen and carbon. Hydrocarbons are examples of group 14 hydrides. Hydrocarbons are generally colourless and hydrophobic, and their odors are usually weak or ...

.Roure, F., & Sassi, W. (1995). Kinematics of deformation and petroleum system appraisal in Neogene foreland fold-and-thrust belts. Petroleum Geoscience, 1(3), 253–269.

Detachment fold

As shown in the visual analogy for

s in fig 4, folds are found in rock strata above the decollement (paper:

incompetent Incompetence is the inability to perform; lack of competence; ineptitude. Aspects of incompetence include: *Administrative incompetence, dysfunctional administrative behaviors that hinder attainment of organization goals *Incompetence (law), a p ...

) while rock strata below it (table: competent, if it deforms it will fracture) remains undeformed, as shortening strain is concentrated at the rock strata above decollement.Ramsay, J. G., & Huber, M. I. (1987). ''The techniques of modern structural geology: Folds and fractures(Vol. 2). Academic press.''Homza, T. X., & Wallace, W. K. (1995). Geometric and kinematic models for detachment folds with fixed and variable detachment depths. Journal of Structural Geology, 17(4), 575–588. In a setting in which overlapping strata acquires contrasting competency, a decollement (interface between paper and table) is usually found along strata in competent rock unit (such as

sandstone Sandstone is a clastic sedimentary rock composed mainly of sand-sized (0.0625 to 2 mm) silicate grains. Sandstones comprise about 20–25% of all sedimentary rocks. Most sandstone is composed of quartz or feldspar (both silicates ...

) or along the interface of competent and incompetent rock unit (such as an

evaporite An evaporite () is a water- soluble sedimentary mineral deposit that results from concentration and crystallization by evaporation from an aqueous solution. There are two types of evaporite deposits: marine, which can also be described as ocean ...

). A fold acquires higher amplitude, longer wavelength and broader width when rock strata above the decollement are subjected to shortening stress parallel to, or at a low angle to the strata. Apart from stress parameters, contrast of competency across strata and variation of displacement along the decollement are the main factors contributing to fold geometry and three dimensional growth pattern.Jamison, W. R. (1987). Geometric analysis of fold development in overthrust terranes. Journal of Structural Geology, 9(2), 207–219.Mitra, S. (2002). Structural models of faulted detachment folds. AAPG bulletin, 86(9), 1673–1694. Forced fold new-01

Forced fold

Two common types of forced folds are, namely, fault-bend fold and fault-propagation fold. Folding occurs above the hanging wall of a fold ramp in a fault-bend fold, while folding occurs above the truncation of a thrust fault(fault tip) in a fault-propagation fold. They are usually highly asymmetric with one side of the limb much steeper than the other side. Shortening stress is usually at a high angle to the strata and is concentrated along the slipping plane and in the hanging wall of the thrust fault. The fold acquires higher amplitude, longer

wavelength In physics, the wavelength is the spatial period of a periodic wave—the distance over which the wave's shape repeats. It is the distance between consecutive corresponding points of the same phase on the wave, such as two adjacent crests, t ...

and broader width as rock slips along the fault plane of the underlying coeval thrust fault, casting major influence on the three dimensional growth of the fold. Therefore, forced folds are controlled by the fault structure in the basement rocks along planar or

listric fault In geology, a fault is a planar fracture or discontinuity in a volume of rock across which there has been significant displacement as a result of rock-mass movements. Large faults within Earth's crust result from the action of plate tecton ...

surfaces.Johnson, K. M., & Johnson, A. M. (2002). Mechanical analysis of the geometry of forced-folds. Journal of Structural Geology, 24(3), 401–410. The amount of fault displacement would control the amplitude of a fold, the lateral growth of fault would implies lateral growth of fold and fault linkage implies fold linkage on the surface. When compared to detachment folds, contrasting competency across strata is not as pronounced and the tectonic environments that they are found in are often more diverse. A detachment fold can evolve into a forced fold when shortening stress exceeds the maximum strength of rock, and as a result the decollement may propagate upwards towards the anticlinal core and fault the detachment fold. The resultant structure poses characteristics of both detachment fold and fault propagation fold.Mitra, S. (2003). A unified kinematic model for the evolution of detachment folds. Journal of Structural Geology, 25(10), 1659–1673. An exemplar structure of this kind can be found in Mississippi Fan fold belt in

Gulf of Mexico The Gulf of Mexico ( es, Golfo de México) is an ocean basin and a marginal sea of the Atlantic Ocean, largely surrounded by the North American continent. It is bounded on the northeast, north and northwest by the Gulf Coast of the United ...

.Rowan, M. G. (1997). Three-dimensional geometry and evolution of a segmented detachment fold, Mississippi Fan foldbelt, Gulf of Mexico. Journal of Structural Geology, 19(3), 463–480.

Identification of 3D fold growth

Fold growth in cross-sectional, across fold-axis dimension

Modelling of the kinematic evolution of folds in cross-sectional view is usually based on one of the following schemes: balanced restoration, forward kinematic modelling or a combination of the two.Suppe, J., Sàbat, F., Munoz, J. A., Poblet, J., Roca, E., & Vergés, J. (1997). Bed-by-bed fold growth by kink-band migration: Sant Llorenç de Morunys, eastern Pyrenees. Journal of Structural Geology, 19(3), 443–461.Vergés, J., Burbank, D. W., & Meigs, A. (1996). Unfolding: An inverse approach to fold kinematics. Geology, 24(2), 175–178.Mount, V. S., Suppe, J., & Hook, S. C. (1990). A Forward Modeling Strategy for Balancing Cross Sections (1). AAPG Bulletin, 74(5), 521–531.Nunns, A. G. (1991). Structural Restoration of Seismic and Geologic Sections in Extensional Regimes (1). AAPG Bulletin, 75(2), 278–297.

Fold growth in lateral dimension

Section restoration in all three dimension can only be done by highly specialized software and is mainly used for studies in hydrocarbon.Clarke, S. M., Burley, S. D., Williams, G. D., Richards, A. J., Meredith, D. J., & Egan, S. S. (2006). Integrated four-dimensional modelling of sedimentary basin architecture and hydrocarbon migration. Geological Society, London, Special Publications, 253(1), 185–211. Alternatively, geomorphological evidences, especially drainage features, can be used to determine the lateral propagation direction of fold growth. There are 6 main criteria for identifying lateral fold growth:Bretis, B., Bartl, N., & Grasemann, B. (2011). Lateral fold growth and linkage in the Zagros fold and thrust belt (Kurdistan, NE Iraq). Basin Research, 23(6), 615–630.He, D., & Li, J. (2009). Drainage network development and fold growth of Quilitage structural belt in the Kuqa foreland fold and thrust belt. Dizhixue Bao= Acta Geologica Sinica, 83(8), 1074–1082.Keller, E. A., Gurrola, L., & Tierney, T. E. (1999). Geomorphic criteria to determine direction of lateral propagation of reverse faulting and folding.Geology, 27(6), 515–518.Keller, E. A., Zepeda, R. L., Rockwell, T. K., Ku, T. L., & Dinklage, W. S. (1998). Active tectonics at Wheeler Ridge, southern San Joaquin Valley, California. Geological Society of America Bulletin, 110(3), 298–310.

Degree of surface dissection and
drainage density Drainage density is a quantity used to describe physical parameters of a drainage basin. First described by Robert E. Horton, drainage density is defined as the total length of channel in a drainage basin divided by the total area, represented by ...
along fold crest

Drainage density Drainage density is a quantity used to describe physical parameters of a drainage basin. First described by Robert E. Horton, drainage density is defined as the total length of channel in a drainage basin divided by the total area, represented by ...

(=total river length/area of drainage basin) and degree of surface dissection decreases along with propagation direction of a fold. Higher drainage density and greater degree of surface dissection in a particular part of a fold segment corresponds to the higher maturity of that part, which can be inferred as that that part has been subjected to erosion for a longer time period after uplift. Hence, it experienced uplift relative earlier than other parts of the fold''Delcaillau, B., Carozza, J. M., & Laville, E. (2006). Recent fold growth and drainage development: the Janauri and Chandigarh anticlines in the Siwalik foothills, northwest India. Geomorphology, 76(3), 241–256.''. Mathematical analysis of the maturity of drainage which take into the account of stream length and stream order can also be used to establish the relative ages of different drainage basins.Strahler, A. N. (1952). Hypsometric (area-altitude) analysis of erosional topography. Geological Society of America Bulletin, 63(11), 1117–1142.

Progressive change of soil profile

Older sections of a fold experience more

erosion Erosion is the action of surface processes (such as water flow or wind) that removes soil, rock, or dissolved material from one location on the Earth's crust, and then transports it to another location where it is deposited. Erosion is dis ...

and therefore have a different soil profile compared to their younger counterparts. Soil profiles can be classified into different stages of development according to morphological stages of

carbonate A carbonate is a salt of carbonic acid (H2CO3), characterized by the presence of the carbonate ion, a polyatomic ion with the formula . The word ''carbonate'' may also refer to a carbonate ester, an organic compound containing the carbonate ...

horizons in soil, mass of secondary carbonate, iron oxide content,

clay Clay is a type of fine-grained natural soil material containing clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4). Clays develop plasticity when wet, due to a molecular film of water surrounding the clay par ...

content, thickness of clay-film and color brightness of soil, and thus establishes lateral growth direction of the fold. Furthermore, carbon-14 or uranium-series dating of soil materials would set time constraint on certain parts of the fold and therefore helps fixing the rate of lateral fold growth. Nevertheless, this criterion of comparison is based on an assumption that time is the only significant factor contributing to the differences of soil profiles across different parts of a fold, and excludes other factors for variation such as parent materials of soil, climate, vegetation and initial topography. Therefore, the progressive change in soil profile is more of a secondary evidence of lateral fold growth.

Structural relief

Structural elevation along fold crest should decrease along the growth direction of a fold because the older part of a fold experiences more uplift than their younger counterpart''''. However, this can be strongly misleading in active erosional environment where erosion rather than uplift due to fold growth is the dominant shaping force of the landscape and as a result can only be used as secondary evidence of fold growth. Asymmetric folk drainage mod mod-01

Characteristic drainage pattern on the slope of anticline

An asymmetric forked drainage pattern forms during lateral growth of a fold. The direction along which drainage channels 'bend away' from the fold crest is the direction of lateral fold growth(fig. 7)''''. Imagine the following situation: at an early stage of folding and near the fold tip, river flows approximately along the fold crests towards the end of a fold as river tends to flow down the slope of maximum gradient. As folding continues, that point is no longer located at the fold tip as the fold grows laterally. As the point is uplifted to a higher elevation, the slope of maximum gradient is no longer along the fold crest, but becomes the distance from fold hinge towards the other end of fold limb, which is approximately perpendicular to the original orientation. As a result, the new generation of river flows perpendicular to the fold crest along the fold limbs. Because of strong

river erosion Erosion is the action of surface processes (such as water flow or wind) that removes soil, rock, or dissolved material from one location on the Earth's crust, and then transports it to another location where it is deposited. Erosion is dist ...

in the upper course, some of the drainage channels of the earlier stage are deeply incised into bedrock and therefore river continues to flow along these upper parts of old channels that do not follow the maximum slope gradient. As a result, combining the fold-crest-parallel direction of flow in the upper part of drainage channels (which are inherited from the early stages of deformation) and the fold-crest-perpendicular direction of flow in the middle and lower of drainage channels, an asymmetric drainage pattern that resembles a bent fork results. This criterion is a strong evidence for lateral fold growth.

Streams deflected around the nose of fold

Streams are deflected as they meet uplifted rocks and flow along the boundary of the fold, which is

parallel Parallel is a geometric term of location which may refer to: Computing * Parallel algorithm * Parallel computing * Parallel metaheuristic * Parallel (software), a UNIX utility for running programs in parallel * Parallel Sysplex, a cluster of ...

or sub-parallel to fold axis'''' and the curvature of the deflected stream convex towards the direction of lateral fold growth along fold crest. There are two possible scenarios when the path of a stream is blocked by an uplifted block of rock. First scenario: the stream poses stream power that is high enough to cut through the uplifted rocks, so that the river course will not be significantly altered. A channel is opened in the uplifted rocks due to erosion, a landform known as

water gap A water gap is a gap that flowing water has carved through a mountain range or mountain ridge and that still carries water today. Such gaps that no longer carry water currents are called wind gaps. Water gaps and wind gaps often offer a prac ...

. It continues to flow until the rock is further uplifted and the river no longer has enough erosive power to cut through it, leading to the second scenario. Second scenario: the stream does not have enough erosive power to cut through the rocks, so it deflected to flow along the boundary of the uplifted block as aforementioned. The abandoned river channel is known as

wind gap A wind gap (or air gap) is a gap through which a waterway once flowed that is now dry as a result of stream capture. A water gap is a similar feature, but one in which a waterway still flows. Water gaps and wind gaps often provide routes which ...

. From here, the river either flows along the boundary of the fold and bends around the fold tip, or it may cut through the rocks at some points despite the block, due to either, acquisition of enough stream power through stream capture of small tributaries along its flow, or the presence of a particularly weak spot in the rock''.'' In either way the river continues to flow until further uplift of rocks makes the rock too difficult for the river to cut through, which results in, again, the deflection of the channel and formation of a new wind gap.

Wind gaps

Elevation of wind gaps decreases along the growth direction of fold and curvature of curved wind gaps

convex Convex or convexity may refer to: Science and technology * Convex lens, in optics Mathematics * Convex set, containing the whole line segment that joins points ** Convex polygon, a polygon which encloses a convex set of points ** Convex polytop ...

towards the growth direction of the fold.Hetzel, R., Tao, M., Niedermann, S., Strecker, M. R., Ivy‐Ochs, S., Kubik, P. W., & Gao, B. (2004). Implications of the fault scaling law for the growth of topography: Mountain ranges in the broken foreland of north‐east Tibet. Terra Nova, 16(3), 157–162. Multiple wind gaps can be formed from a single river if there is continuous lateral fold growth and the river keeps being deflected, by abandoning its earlier channel and forming a new one around the outside of the developing fold. In a topographic profile along fold crest, wind gaps appears as deep, narrow v-shaped valley. The incision depth of a wind gap correspond to the period of active river erosion before the channel was abandoned, i.e. the duration of its state of being a river or water gap. Since the time of abandonment of an old river channel(time of formation of a new wind gap) is the time of formation of a new river channel and the start of erosion in the new channel, the base elevation of a wind gap would approximately equals to the surface elevation of its successor, provided that they were formed from the same river. Therefore, the elevation of wind gaps must always decrease along the direction of lateral fold growth along fold crest, which is one of the strongest, although not decisive, evidence of the characteristics of fold growth. As former deflected streams, some of the wind gaps may show curvature that convex towards the direction of lateral fold growth. In a

Digital Elevation Model A digital elevation model (DEM) or digital surface model (DSM) is a 3D computer graphics representation of elevation data to represent terrain or overlaying objects, commonly of a planet, moon, or asteroid. A "global DEM" refers to a discrete g ...

(DEM), the longitudinal profile of a wind gap shows a convex-upwards trend and that of a water gap shows a concave-upwards or linear trend. None of the single aforementioned methodologies is decisive on determining 3D fold growth and a combination of methodologies should be used, because similar morphology can be produced by limb rotation and differential erosion across strata of varying competency, which do not implicate three-dimensional fold growth.

Wheeler Ridge, California

Located at southern

anticline is an east-west trending fault-bend fold,"Mueller, K., & Suppe, J. (1997). Growth of Wheeler Ridge anticline, California: geomorphic evidence for fault-bend folding behaviour during earthquakes. Journal of Structural Geology, 19(3), 383–396. and is part of Pleito-Wheeler Ridge thrust fault system. Structural deformation in the area has been active since late

Pleistocene The Pleistocene ( , often referred to as the ''Ice age'') is the geological epoch that lasted from about 2,580,000 to 11,700 years ago, spanning the Earth's most recent period of repeated glaciations. Before a change was finally confirmed in ...

, resulting in significant three-dimensional fold growth. The eastern end of the anticline has been experiencing fold growth towards the east-southeast. Firstly, the structural elevation of eastern Wheeler Ridge decreases from the west to east, suggesting that the eastern part of the examined section is uplifted and exposed to erosion at a later time than the western part of the examined section. Thereby it supports a west-to-east fold growth direction Second, the main flowing river channels show a curvature that bends towards the east-southeast. The curvature seems to a result of gradual uplift of rocks towards the east-southeast and shows resemblance to the patterns of deflected streams during lateral fold growth. Under this assumption, this evidence supports the growth of fold towards the east-southeast. Third, the abandonment of old river channels (formation of wind gap) can be seen in a topographic profile across ridge crest. As shown in fig.12, the base elevation of the wind gap approximately corresponds to the surface elevation of water gap 1, indicating that the original river channel along the wind gap was abandoned at the same time as water starts to flow in water gap 1 and therefore the two are probably formed from the singer river. It seems that the river originally flowing in the wind gap was deflected due to uplifting and flow along water gap 1 instead. Therefore, there is a strong evidence supporting that fold grows laterally towards east-southeast. Forth, soil analysis indicates a high level of soil development at the western part of the examined section indicates, and the level of soil development gradually decreases towards the east. It is suggested that western part of the examined area is of an older age comparing to the eastern part, and therefore the fold grows from west to east.

Fold linkage

Orientation of linkage

In an area affected by regional stress, most of the faults and folds are aligned along strike.Cowie, P. A. (1998). A healing–reloading feedback control on the growth rate of seismogenic faults. Journal of Structural Geology, 20(8), 1075–1087. In forced folds, linkage of folds is strongly associated with linkage of the underlying faults. Growth and displacement of faults are affected by not only the far-field stress of the region but also the position of faults relative to each other.Cowie, P. A., & Shipton, Z. K. (1998) This is a result of a reloading

positive feedback Positive feedback (exacerbating feedback, self-reinforcing feedback) is a process that occurs in a feedback loop which exacerbates the effects of a small disturbance. That is, the effects of a perturbation on a system include an increase in th ...

mechanism, which suggests that the stress build-up in the population of faults that are aligned along strike are much faster than those located in stress shadow (i.e. transverse to the main alignments), and thus the higher frequency of rupture and growth rates in faults that are optimally aligned.Roberts, G. P., & Michetti, A. M. (2004). Spatial and temporal variations in growth rates along active normal fault systems: an example from The Lazio–Abruzzo Apennines, central Italy. Journal of Structural Geology, 26(2), 339–376.Manighetti, I., King, G. C. P., Gaudemer, Y., Scholz, C. H., & Doubre, C. (2001). Slip accumulation and lateral propagation of active normal faults in Afar. Journal of Geophysical Research: Solid Earth, 106(B7), 13667-13696. Conversely, the faults that are located in stress shadow are relaxed and have a lower frequency of rupture and growth rates. As localization of deformation among faults continues, some faults may concentrate the stress and upon linking with other faults form a main fault that accommodates most of the displacement in the region. On the other hand, the faults that orient in the stress shadow will decrease in growth rates and even become inactive in the long term. As a result, in a region with pervasive compressional stress, two merged fold segments are usually aligned along-strike, as the folds would probably be rendered inactive if they are not aligned in such favorable ways.

Mode of linkage

Identification of fold linkage

A_mid, relative height of surface in the horizontal middle of the surface in the area of approaching fold tips, is useful for defining the status of two approaching structures in the spectrum from no linkage to linear or en-echelon linkage. Relative height is defined as the surface elevation of the point of interest minus the average surface elevation of the area of the approaching fold tips (see fig.15). ''If A_mid>0, linkage is present''. ''If A_mid<0, linkage is absent.'' ''If A_mid~0, the structure is in the transitional zone between linkage and no-linkage.'' After determining the presence of linkage between twofold segments, it is possible to identify linear linkage between the segments by a straight antiformal saddle in between the two main folds. For an en-echelon linkage, the main folds of the segments would be linked by a curved antiformal saddle in between.

References

{{Structural geology Geological processes Structural geology Deformation (mechanics)