Abstract
The national barium–rubidium screen
and subsequent Orcadian prioritisation (Daw 2026) identified East Caithness
(the Sarclet–Lybster–Clyth flagstone coast) as the strongest candidate ground
for the Altar Stone, independently corroborated by the detrital-zircon match of
Clarke et al. (2024, 2026). The only other coastal belt within the Orcadian
Basin that returned any screen signal, and merited a stratigraphic check, is
the Nairn–Findhorn–Elgin margin on the southern shore of the Moray Firth. A
lithofacies audit of the published BGS mapping, memoirs and Geological
Conservation Review accounts confirms that this belt is a marginal expression
of the same Lake Orcadie system: the Middle Old Red Sandstone here (Inverness
and Black Isle Sandstone groups) is predominantly fluvial red sandstone
deposited along the lake margin, with subordinate lacustrine flag intervals,
and the Upper Old Red Sandstone (Nairn Sandstone Formation and the Elgin beds)
is a mixed fluvial–lacustrine, red-to-grey calcareous, cornstone-bearing
succession. Its fine lacustrine flag intervals are the same facies family as
the Caithness flagstones and carry the same Achanarras-assemblage fish. That
last point is decisive in an unexpected direction: because the East Caithness
lead is itself built on the fish-bearing quiet-water flag facies, the presence
of fish beds cannot be used to exclude the Moray margin. We therefore correct
the provisional “too many fossils” dismissal rather than endorse it. What
genuinely separates the Moray margin from East Caithness is not the fine facies
but its marginality and oxidation, the subordinate and heterogeneous
development of its flags (poor monolith potential), and above all its weak,
poorly bedrock-verified barium signal — the proxy for the Altar Stone’s diagnostic
baryte cement — against the strongest national signal at East Caithness. The
diagnostic baryte–tosudite assemblage is untested at Nairn, as it is still
under validation at East Caithness. The Nairn strand is therefore recorded as
deprioritised and untested rather than eliminated on lithofacies. The
Permian–Triassic New Red Sandstone of the coast (Hopeman and Burghead
sandstones) is excluded on age and requires no facies argument.
1. Why the Moray margin was the remaining
Orcadian candidate to check
Clarke et al.
(2024, 2026) place the Altar Stone’s detrital-mineral source in the Orcadian
Basin and exclude the Midland Valley, the Anglo-Welsh Basin and Mainland
Orkney. The barium–rubidium stream-sediment screen of Daw (2026) ranked East
Caithness — the Sarclet–Lybster–Clyth flagstone coast — as the strongest
national hit, with independent zircon corroboration at Sarclet. Within the
Orcadian Basin the only other coastal belt that returned any screen signal was
the southern Moray Firth margin around Nairn, Findhorn and Elgin, although the
signal was weak and, as Section 5 notes, poorly bedrock-verified. This belt
exposes Middle and Upper Devonian rocks laid down in the southern, marginal
part of Lake Orcadie. It was provisionally set aside on the informal
observation that its fine facies “had too many fossils.” This note tests that
dismissal formally, and finds it must be replaced: the fossil criterion does
not survive scrutiny, but the belt is nonetheless a low-prior, untested
candidate for other, sounder reasons.
2. Data and methods
The audit
uses published sources only: BGS 1:50 000 and 1:625 000 digital mapping; the
BGS Earthwise accounts for the Devonian of the Grampian Highlands and the
Northern Highlands; the BGS memoir for Fortrose and eastern Inverness (Sheet
84W); and the Geological Conservation Review volume on the Old Red Sandstone of
Great Britain (including the Tynet Burn and related Moray fish-bed sites). No
new field data were collected. Lithofacies were evaluated against the Altar
Stone criteria established in the screening and mineralogical work (Bevins et
al. 2024; Clarke et al. 2024, 2026; Daw 2026): fine- to very fine-grained,
well-sorted sandstone; ripple or planar lamination indicating quiescent water;
grey-green colour; negligible detrital K-feldspar; pervasive baryte (with
calcite) cement; and a tosudite / aluminous-kaolinite clay assemblage. Two
method limits are carried throughout: stream-sediment values are not rock
values, and a barium anomaly is a proxy for baryte cement, not a measurement of
it; and formation identity is not facies identity.
3. Lithofacies of the Nairn–Moray Devonian
succession
3.1 Middle Old Red Sandstone — the marginal
facies of Lake Orcadie
Around the
southern Moray Firth the Middle ORS is represented by the Inverness and Black
Isle Sandstone groups, which BGS characterises as predominantly fluvial red
sandstone successions deposited along the lake margins — the marginal
counterpart of the deep-water Caithness Flagstone Group at the centre of the
basin. Within this dominantly marginal, sandier and more oxidised succession,
subordinate lacustrine flag intervals occur — the Inshes Flagstone, Nairnside
and Hillhead sandstones — as grey and purple flaggy micaceous sandstones and
dark calcareous flags with laminated shaly mudstones and limestone nodules.
These finer intervals carry the Achanarras (and post-Achanarras Eifelian) fish
assemblage, the same faunal marker that defines the lacustrine flagstones of
Caithness. The Hillhead Sandstone, with its post-Achanarras fish, is
unconformably overlain in the Ardersier–Cawdor area by the Nairn Sandstone
Formation (Section 3.2).
3.2 Upper Old Red Sandstone — Nairn Sandstone
Formation and the Elgin beds
The Nairn
Sandstone Formation, the oldest Upper ORS unit of the district, comprises an
irregular basal reddish conglomerate overlain by red, grey and yellow
calcareous cross-bedded and flaggy sandstones with thin conglomerate beds and
soft limestone-bearing mudstones; it is a mixed fluvial–lacustrine sequence
carrying a Givetian fish assemblage. In the Findhorn area desiccated mudstones
(clay galls) and a calcrete horizon (the Cothall Limestone) are recorded. The
overlying Whitemire, Alves and Scaat Craig beds are grey-to-reddish siliceous
pebbly sandstones and fine conglomerates with marly intervals and cornstone
(calcrete) palaeosols, and the Upper ORS subdivisions here are themselves
defined on six successive fossil-fish assemblages (Asterolepis, Psammolepis,
Bothriolepis, Holoptychius and others). The succession records shallow-water
and periodically dry-bed conditions, with rapid lateral facies changes and
local overstep along the margins of fault-bounded sub-basins. Fine flaggy and
shaly intervals are present but are subordinate, laterally impersistent, and
interbedded with pebbly and pedogenically modified beds.
3.3 The New Red Sandstone of the coast is not
Devonian
The Hopeman
and Burghead sandstones of the Hopeman–Burghead–Lossiemouth coast are
post-Devonian and rest unconformably on the Upper ORS. They are not a single
unit and are not both aeolian: the Hopeman Sandstone Formation is a Late
Permian to Early Triassic aeolian dune sandstone (the ‘Elgin Reptile’ beds,
with Chelichnus trackways), while the overlying Burghead Sandstone
Formation is Triassic and fluvial (waterlain), part of the New Red Sandstone.
Their historical confusion with the Old Red Sandstone — the very controversy
that the 1851 discovery of Leptopleuron (Telerpeton) at Spynie brought
to a head — is a caution rather than a candidacy: on age alone neither is
relevant to the Altar Stone, and no facies argument is required to set them
aside.
4. Comparison with the Altar Stone criteria
Assessed
against the Altar Stone benchmark, the Moray margin divides into points of
genuine similarity and points of genuine difference — with the single criterion
the provisional dismissal relied upon, fossil content, belonging to neither.
●
Grain size, sorting and structures. The fine, well-sorted,
ripple- and planar-laminated intervals of the Moray succession are the
lacustrine flag intervals of Section 3.1–3.2. Texturally these are comparable
to the East Caithness flagstones — they are the same quiet-water facies — but
here they are subordinate to marginal fluvial red sandstone and are laterally
impersistent.
●
Colour and composition. The succession is dominated by red, grey and
yellow calcareous sandstones with cornstone palaeosols; a clean, grey-green,
K-feldspar-poor sandstone of the Altar Stone type is not specifically reported.
This oxidised, pedogenically modified, marginal character is a real point of
difference from the reduced, deep-water grey flagstone facies — though the grey
lacustrine flags of Section 3.1 show the reduced facies is locally present.
●
Monolith potential. The fine intervals are thin, impersistent and
interbedded with coarser and nodule-rich beds — a poorer prospect for a
coherent monolith of the required dimensions than the thick, laterally
persistent Caithness flag sequences.
●
Diagnostic diagenesis (baryte, tosudite). No published clay or
cement data exist for the Nairn–Moray flags. On the screen, the belt returned
only a weak and poorly bedrock-verified barium signal — the proxy for the Altar
Stone’s pervasive baryte cement — in contrast to the strong, well-verified signal
at East Caithness. This is the most substantive point against the belt, and it
is a proxy, not a measurement.
5. Why the fossil criterion does not
discriminate
The
provisional dismissal rested on the observation that every fine lacustrine
facies in the Moray belt is fish-bearing. That observation is correct but
non-discriminating, because the East Caithness ground on which the whole
enquiry rests is itself the fish-bearing flag system. The Lower Caithness
Flagstone Group is built from the Clyth and Lybster subgroups above the Sarclet
Group, with the Achanarras Fish Bed within it; the quiet-water fish-bed facies
of the Clyth and Lybster subgroups are locally carbonate-rich, approaching
dolomitic limestone; and the basin’s fish beds carry bituminous residues from
oil generation. The Achanarras assemblage that marks the Moray fish beds is the
same marker found at the Niandt Limestone of east Caithness, the Sandwick Fish
Bed of Orkney and the Cromarty and Edderton fish beds of Easter Ross. The fish
beds are the correlatable quiet-water phase of a single lacustrine system, not
a property that distinguishes one part of it from another.
It follows
that fossil content cannot exclude the Moray margin without also excluding the
preferred East Caithness lead — an argument that proves too much. The Altar
Stone is barren of macrofossils simply because it derives from the barren
sandstone phase of a depositional cycle rather than from the thin fish-bed
phase at the cycle base; both phases are present in every cycle, in Caithness
and in the Moray margin alike, and a monolith is by definition drawn from the
sandy phase. If anything, the presence of the Achanarras-assemblage flags on
the Moray margin is evidence that the correct lacustrine facies family is
developed there — a point of similarity, not the decisive difference the
provisional dismissal took it to be. The criterion is therefore withdrawn.
6. Assessment: deprioritised and untested, not
eliminated
The honest
position is narrower than a lithofacies closure but is sufficient for the
enquiry’s purposes. The Nairn–southern Moray Firth belt is a marginal, more
oxidised, more heterogeneous expression of the same Lake Orcadie lacustrine
system that reaches its deep-water optimum in East Caithness. Its fine
lacustrine flags are the right facies family and cannot be excluded on facies
or fossils; what places the belt well below East Caithness is the combination
of a marginal and oxidised overall character, subordinate and impersistent flag
development with poor monolith potential, and — most substantively — a weak,
poorly bedrock-verified barium signal where the Altar Stone’s defining baryte
cement should produce a strong one. The diagnostic baryte–tosudite assemblage
is untested here, exactly as it remains under active validation at East
Caithness.
The belt is
therefore recorded as deprioritised and untested, not eliminated. What
would resolve it is the same test that will confirm or refute East Caithness:
direct sampling of a fine grey lacustrine flag interval — clay XRD for
tosudite, modal K-feldspar, baryte-cement habit and rock geochemistry —
benchmarked like-for-like against the Altar Stone. On present evidence the
prior is low and the enquiry’s effort is better spent on the stronger East
Caithness lead; but recording the Moray margin as a proven facies exclusion
would overstate the evidence, and would rest on an argument that also excludes
the lead.
7. Conclusion and implications for the enquiry
A systematic
lithofacies audit of the Nairn–Findhorn–Elgin margin does not reproduce the
provisional “too many fossils” dismissal; it replaces it. The fine lacustrine
flag intervals of the belt are the same fish-bearing quiet-water facies as the
East Caithness flagstones, so fossil content cannot discriminate between them.
The belt is instead deprioritised on its marginal and oxidised character, its
subordinate and impersistent flag development, and its weak barium signal, with
the diagnostic clay and cement assemblage untested. This distinguishes the
Moray margin, within the enquiry’s ledger, from the Midland Valley and Orkney:
those were screened out; the Moray margin is present but
deprioritised and untested. With that distinction stated honestly, the
enquiry’s signal remains concentrated on the East Caithness flagstone coast —
the only ground where a strong, well-verified barium signal, a compatible and
thickly developed flag facies, and independent detrital-mineral geochronology
converge, and where the diagnostic baryte–tosudite assemblage is under active
validation. The next phase is detailed target refinement within that East
Caithness fairway.
Status
Nairn /
southern Moray Firth Devonian ORS strand: DEPRIORITISED and untested — a marginal expression
of the same lacustrine system as East Caithness; the fine flag facies is
present and shares the Achanarras fish assemblage, so it is not a facies or
fossil exclusion; deprioritised on marginality, poor monolith potential and a
weak barium signal, with the diagnostic baryte–tosudite clays untested. Not
eliminated. New Red Sandstone (Hopeman aeolian, Burghead fluvial) excluded on
age. Enquiry focus remains on East Caithness (Sarclet–Lybster–Clyth)
refinement.
Selected references
Bevins, R.E. et al.
(2024). Was the Stonehenge Altar Stone from Orkney? Journal of Archaeological
Science: Reports, 58, 104738.
British Geological
Survey. Devonian, Grampian Highlands; Middle Old Red Sandstone, Northern
Highlands of Scotland; Bedrock Geology UK North — the Old Red Sandstone
Supergroup. BGS Earthwise.
British Geological
Survey. Fortrose and eastern Inverness (Sheet 84W), memoir for the 1:50 000
geological map.
Clarke, A.J.I. et al.
(2024). A Scottish provenance for the Altar Stone of Stonehenge. Nature.
Clarke, A.J.I. et al.
(2026). From Highlands to Henge. Journal of Quaternary Science.
Daw, T. (2026). The
Stonehenge Altar Stone: Screening the Orcadian Basin. sarsen.org.
Dineley, D.L. &
Metcalf, S.J. (1999). Fossil Fishes of Great Britain. Geological Conservation
Review Series 16 (incl. Tynet Burn).
Trewin, N.H. &
Thirlwall, M.F. (2002). The Old Red Sandstone of Scotland (in The Geology of
Scotland, ed. Trewin).