Abstract

Valleys are remarkably persistent features in many different tectonic settings, but the reasons for this persistence are rarely explored. Here, we examine the structural controls on valleys in the Cairngorms Mountains, Scotland, part of the passive margin of the eastern North Atlantic. We consider valleys at three scales: straths, glens and headwater valleys. The structural controls on valleys in and around the Cairngorm Granite pluton were examined on satellite and aerial photographs and by field survey. Topographic lineaments, including valleys, show no consistent orientation with joint sets or with sheets of microgranite and pegmatitic granite. In this granite landscape, jointing is not a first-order control on valley development. Instead, glens and headwater valleys align closely to quartz veins and linear alteration zones (LAZs). LAZs are zones of weakness in the granite pluton in which late-stage hydrothermal alteration and hydro-fracturing have greatly reduced rock mass strength and increased permeability. LAZs, which can be kilometres long and >700 m deep, are the dominant controls on the orientation of valleys in the Cairngorms. LAZs formed in the roof zone of the granite intrusion. Although the Cairngorm pluton was unroofed soon after emplacement, the presence of Old Red Sandstone (ORS) outliers in the terrain to the north and east indicates that the lower relief of the sub-ORS basement surface has been lowered by <500 m. Hence, the valley patterns in and around the Cairngorms have persisted through >1 km of vertical erosion and for 400 Myr. This valley persistence is a combined product of regionally low rates of basement exhumation and of the existence of LAZs in the Cairngorm pluton and sub-parallel Caledonide fractures in the surrounding terrain with depths that exceed 1 km.

Highlights

  • Valleys can persist for remarkably long time intervals in many different tectonic settings

  • This study examines the structural controls on valley persistence in the Cairngorms massif in NE Scotland (Figs. 1, 2), part of the uplifted passive margin of the eastern North Atlantic

  • Three types of valleys can be recognised at different scales in the Cairngorms massif and surrounding parts of northeast Scotland

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Summary

Introduction

Valleys can persist for remarkably long time intervals in many different tectonic settings. Even in late Cenozoic orogenic belts with extreme erosion rates, major valleys that transect rising mountain chains have courses that pre-date uplift (Wager 1937; House et al 2001; Kuhlemann 2007). The question as to why valleys should be so persistent is addressed only rarely (Twidale 2004; Douglass et al 2009). Large granite intrusions provide many opportunities to explore questions of valley persistence because the rock tends to be of broadly uniform character and the links between rock fractures and landforms in granite landscapes are relatively well understood. Fracture networks in granite commonly are arranged in nested meshes that vary in scale from km-long faults to m-scale orthogonal joint sets and

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