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O'Connell, Michael; Jennings, Eneda (2020): A Holocene pollen profile (GRN I) from Garrynagran, north Co. Mayo, Ireland [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.912166, In: O'Connell, Michael; Molloy, Karen; Jennings, Eneda (2020): Pollen analytical and bog-pine investigations relating to Céide Fields and Garrynagran, Co. Mayo, Ireland [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.911684

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Abstract:
The sampling site was in an extensive blanket bog, 16 km south of Céide Fields Visitor Centre, where peat cutting had revealed many pine timbers and also oak timbers. This provided the opportunity to carry out a palaeoecological study that included pollen analysis and dendrochronological investigations.
In the study area, the bedrock is Carboniferous sandstone which, to the east of the sampling area, gives way to Carboniferous limestone of the Moy valley. Here there are thick glacial deposits including well-developed drumlin fields, and the land is fertile and bogs are few.
Core GRN I was taken where what appeared to be an isolated small pine stump (P2/W1) was present at ca. 58 cm in a turf bank (depth from the cutover surface; the uppermost peat (≥1 m) had been removed by peat cutters). At a lower level and in a drainage channel below the peat face, there were several pine timbers. A pine stump P1/W2) at this level from beside the core was 14C dated; pine stump P2 was also 14C dated.
The age/depth model (Clam v. 2.2) for the pollen profile derives from a smooth spline curve (smooth factor = 0.4) fitted to ten 14C dates which includes two pine timber dates. The uppermost peat-derived 14C date, 1170±30 BP (10–8 cm; at least 1 m of peat had been removed by peat cutters), was regarded as unrealistically young and was not used.
The pollen profile GRN I spans the interval ca. 5700–1800 BC.
The pollen profile indicates that pine grew in the mire from the beginning of the record (5700 BC) to at least 2600 BC ('pine flush' recorded at 2700–2600 BC). This is supported by a Pinus stomatal record and also dendrochronological investigations of pine in the extensive bog at Garrynagran.
The dendrochronological investigations enabled two floating chronologies to be constructed spanning the intervals 4530-4350 BC and 3135–2700 BC (fixed by 14C dates from dendro-matched pines). These data, together with the pollen data, serve to emphasise the importance of bog-pine in the region at ca. 3000 BC.
Profile GRN I shows a distinct Elm Decline (but little P. lanceolata) that is followed by a Neolithic Landnam (3700–3300 BC). After a long lull in activity, farming impact begins to register again in a substantial way in the early Bronze Age (2300 BC).
The macrofossil data provide evidence for mire development including a substantial role for Sphagnum austinii from ca. 2750 BC onwards.
LOI and tephra investigations were also carried out. A distinct tephra layer was present (9–4 cm; highest tephra concentration at 6–5 cm; ca. 1450 BC based on age/depth model). The results of the tephra investigations have yet to be published.
The research, most of which was carried out as a PhD project by Eneda Jennings (1997), was supported by Forbairt/Eolas (Irish Research Council) and NUIG Postgraduate Fellowship scheme.
Keyword(s):
bog-pine; Bronze Age; Co. Mayo; farming history; Holocene; Ireland; Iron Age; Neolithic; pollen analysis; woodland history
Related to:
Molloy, Karen; O'Connell, Michael (1995): Palaeoecological investigations towards the reconstruction of environment and land-use changes during prehistory at Céide Fields, western Ireland. Probleme der Küstenforschung im südlichen Nordseegebiet, 23, 187-225
O'Connell, Michael; Molloy, Karen (2001): Farming and woodland dynamics in Ireland during the Neolithic. Biology and Environment-Proceedings of the Royal Irish Academy, 101, 99-128
O'Connell, Michael; Molloy, Karen; Jennings, Eneda (2020): Long-term human impact and environmental change in mid-western Ireland, with particular reference to Céide Fields - an overview. E&G - Quaternary Science Journal, 69(1), 1-32, https://doi.org/10.5194/egqsj-69-1-2020
Other version:
A Holocene pollen profile (GRN I) from Garrynagran, north Co. Mayo, Ireland - link to excel file
Coverage:
Latitude: 54.174330 * Longitude: -9.388250
Minimum DEPTH, sediment/rock: 0.20 m * Maximum DEPTH, sediment/rock: 1.90 m
Event(s):
GRN-I * Latitude: 54.174330 * Longitude: -9.388250 * Elevation: 108.0 m * Method/Device: Monolith boxes (MONOB)
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1AgeAgea AD/CEO'Connell, Michael
2DEPTH, sediment/rockDepth sedmO'Connell, MichaelGeocode
3--O'Connell, MichaelPAZs (GRN I-)
4PinusPin#O'Connell, MichaelPINE
5Pinus, stomataPis.s#O'Connell, Michael
6QuercusQue#O'Connell, MichaelOAK
7BetulaBet#O'Connell, MichaelBIRCH
8CorylusCor#O'Connell, MichaelHAZEL
9UlmusUlm#O'Connell, MichaelELM
10FraxinusFrx#O'Connell, MichaelASH
11TaxusTax#O'Connell, MichaelYEW
12AlnusAln#O'Connell, MichaelALDER
13SalixSal#O'Connell, MichaelWILLOW
14TiliaTil#O'Connell, MichaelLIME
15Arboreal pollenAP#O'Connell, Michael
16SorbusSor#O'Connell, Michael
17HederaHed#O'Connell, MichaelIVY
18IlexIle#O'Connell, MichaelHOLLY
19Prunus-typePrn-T#O'Connell, Michael
20ShrubsShrubs#O'Connell, Michaeltall
21Fern spores, monoleteMon.f.s#O'Connell, Michaelperine
22Polypodium vulgarePpd.v#O'Connell, Michael
23PteridiumPtd#O'Connell, MichaelBRACKEN
24Dryopteris filix-mas-typeDrp.f-mT#O'Connell, Michael
25Polystichum-typePls-T#O'Connell, Michael
26Hymenophyllum wilsoniiHym.w#O'Connell, Michael
27FernsFerns#O'Connell, Michael
28PoaceaePoac#O'Connell, Michael
29Plantago lanceolataPla.l#O'Connell, Michael
30FilipendulaFlp#O'Connell, Michael
31Ranunculus acris-typeRan.a-T#O'Connell, Michael
32Anthemis-typeAnt-T#O'Connell, Michael
33ApiaceaeApiae#O'Connell, MichaelApiaceae-type II
34Rumex acetosa-typeRum.a-T#O'Connell, Michael
35Vicia cracca-typeVic.c-T#O'Connell, Michael
36Cerastium-typeCer-T#O'Connell, Michael
37SuccisaSuc#O'Connell, Michael
38MelampyrumMel#O'Connell, Michael
39Non arboreal pollenNAP#O'Connell, Michaelgrassland
40Cereal-typeCereal-T#O'Connell, Michael40-44 µm
41ChenopodiaceaeCheae#O'Connell, Michael
42BrassicaceaeBraae#O'Connell, Michael
43ArtemisiaArt#O'Connell, MichaelMUGWORT
44Non arboreal pollenNAP#O'Connell, Michaelarable/dist
45CallunaCal#O'Connell, MichaelLING
46CyperaceaeCypae#O'Connell, Michaelp.p.
47RhynchosporaRhy#O'Connell, Michael
48EmpetrumEmp#O'Connell, Michael
49Erica cinereaEri.c#O'Connell, Michael
50Erica tetralix-typeEri.t-T#O'Connell, Michael
51Erica tetralixEri.t#O'Connell, Michaelepidermis
52Vaccinium-typeVac-T#O'Connell, Michael
53Potentilla-typePti-T#O'Connell, Michael
54MyricaMyr#O'Connell, MichaelBOG MYRTLE
55NartheciumNat#O'Connell, Michael
56PedicularisPed#O'Connell, Michael
57PotamogetonPot#O'Connell, Michaelsect. Eupot
58SphagnumSph#O'Connell, Michael
59Tilletia sphagniTil.s#O'Connell, MichaelHdV-27: Tilletia sphagni
60GelasinosporaGel#O'Connell, MichaelHdV-1: Gelasinospora 1
61Amphitrema flavumAmp.f#O'Connell, MichaelHdV-31A: Amphitrema flavum
62AssulinaAss#O'Connell, MichaelHdV-32: Assulina
63Hyalosphenia subflavaHya.s#O'Connell, MichaelHdV-46: Hyalosphenia subflava
64Pollen, corrodedPollen corroded#O'Connell, Michael
65Lycopodium (counted)Lyc(ct)#O'Connell, Michael
66Sample volumeSamp volcm3O'Connell, Michael
67PollenPollen#O'Connell, MichaelPollen Sum (PS) = TTP, i.e. bog taxa, etc. excluded
68Operation numberOperation NoO'Connell, Michael
License:
Creative Commons Attribution 4.0 International (CC-BY-4.0)
Size:
3508 data points

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