Alun Valley

I had some time to kill before a site meeting in the Alun Valley yesterday, and for once it wasn't raining - perfect conditions for a bit of mossing in fact. Sam mentioned in his recent Anomodon post that the river by Old Castle Down is base rich and should be very interesting. In fact the water levels were a bit high to find any of the lower flood zone species, but the limestone stepping stones by the ford (SS908756) were carpeted in a mix of Cinclidotus fontinaloides and Dialytrichia mucronata, with a little bit of Porella platyphylla too.

Anomodon was everywhere - on walls, limestone outcrops and tree trunks both by the river and away from it. The river sometimes dries up in the summer  - it would be fascinating to walk the dry riverbed and sample some of the usually inaccessible tree trunks and boughs.

Anomodon viticulosus carpeting a riverside tree

Part of the reason for the recording session was to try and catch up with Marchesinia mackaii, which has eluded me on the limestones of the north Cardiff ridgeway. Sam discovered it at Craig Ddu in 2013 and it proved to be widespread over a fair stretch of wooded limestone crag (SS908754).

This tetrad (SS97C) should be fantastically rich for bryos - the 69 species shown on Barry's latest map reflects the limited recording done to date. I added around 10 species yesterday, the best of which were Neckera pumila on a hazel by the river and Scapania aspera on shaded limestone (SS907756). The Scapania was recorded in this hectad back in the 1970s by Roy Perry, so it's good to get a specific grid ref for it.


I also had a brief look at an unploughed arable margin on Ewenny Down. Riccia glauca was frequent and, as always with arable, I have several specimens which need closer inspection.

Sea Bryum (Warne's Thread-moss) at Whiteford

An old dehised capsule of Bryum warneum amongst fresh ripening capsules of Didymodon tophaceus capsules at Whiteford on 26th November. 10+ fruiting plants (all old and dehised) were noted at SS4340894279 (an additional centisquare to those identified by David Holyoak - checked under microscope). The main direct associates were Pel.end., Dre.adu., Poh.wah., Ana.ten., Ane.pin., Cra.fil., Cam.ste., Sam.val., Did.top. & Bry.pse.

Source of the Llan

... well actually, 400m downstream from it, where I managed to squeeze in a quick smash and grab session in failing light (15:45-16:15). Although the water course and its banks seemed to support a rather limited bryo-flora, there were a couple of species of interest: Warnstorfia fluitans (locally frequent on the grassy flood zone alongside the stream) and Atrichum crispum, the latter conveniently growing adjacent to A. undulatum. Like the Warnstorfia it was mostly under water following the recent rains, hence no field shots. The species has a very different look to undulatum, with the shoots being more lax and a much brighter green. The photo below shows the narrowed leaf base and broad leaf shape. The ridges on the costa are smaller than those of undulatum, which you can get an impression of through a lens (just visible in photo above - you may need to zoom in a bit), which rules out any confusion with Mnium. This was only the third Glamorgan tetrad record, but given the rather mundane habitat, it's one we might expect to see more of in upland streams.

Warnstorfia fluitans with what looks like rather large alar cells, but the habitat, habit (dense sprawling mat) and presence of rhizoids on the leaf tips (with algae entangled) all make a safe id. Note the denticulate margins rule out Drepanocladus. 

A puzzle

I picked up a sample of Campylopus from humus under conifers near Ystradgynlais last week. In the sample were two tiny plants which were unfamiliar - I don't have photos of the whole plant but the leaf below looks distinctive enough, I just can't work out what it is. At first I thought it might be an Entosthodon but the cells are too small. I considered Tortula, but do any of them have such strongly  toothed leaves? I'm sure I'm just missing something obvious. Any suggestions welcome, thanks.

The leaf below is just under 2mm long. Mid leaf cells approx. 15-20 microns diameter. Associates were C. pyriformis and Calypogeia fissa.

Search for Scorpidium: can you help?

After the petrifying springs work for Sam the other year (Farr et al., 2014 & Graham & Farr, 2015) we had some useful feedback from Lars Hedenas regarding the chemical rages of the Scorpidium species that we had reported. In our study we had simply looked at the general quality of the water flushing the site, and we had not sampled individual stands of moss.  He pointed us to a paper he co-authored in the early 1990s (Kooijman & Hedenas, 1991). The paper shows that the three Scorpidium species have slightly different chemical preferences with S. revolvens in the lower pH and conductivity range and S. cossonii and S.scorpioides. S. revolvens was also found in more Ca poor water.

With this in mind myself and the unstoppable Jonathan Graham set off to collect water samples from species specific stands of the three Scorpidium species in south Wales. BGS has kindly offered to support the chemical sampling for this project. We wanted to see if our results would mimic the Sweedish data of (Kooijman & Hedenas, 1991) or not.

One of Jon's great site sketches of a calcareous flush at Foel Farwr

Jon Graham at Foel Fawr (Herberts Quarry)

Measuring pH, electrical conductivity and temperature in situ

We had chosen what we thought were enough sites with each of the Scorpidium species however on closer inspection (and ID by Lars Himself!) we found out that some of our S.revolvens were sadly not S.revolvens !!  So true to form when the chemical results came back from the lab we had a very tantalising story but NOT ENOUGH SAMPLES OF S.REVOLVENS.

Myself and Jon are heading out in January to complete our work (I should add self funded and in our own time !) we are so close to having a great species specific chemical data set for the Scorpidium species in Wales, however we are desperately in need of sites in South Wales with S.revolvens and or S.scorpiodies.

Sam has provided a list of sites from the database, but I think me and Jon may need either 10 Figure grid references or a kind knowledgeable local guide? It is sort of do or die as the funding for the sample analysis will disappear after Jan.

CAN YOU HELP????

(will be two days max in Jan 2016).

• Farr, G.; Graham, J.; Stratford, C. 2014 Survey, characterisation and condition assessment of Palustriella dominated springs 'H7220 petrifying springs with tufa formation (Cratoneurion) in Wales. NERC, 211pp. (Natural Resources Wales Evidence Report No. 136, WL/NEC03832/13_14/T6, OR/14/043) (Unpublished) http://nora.nerc.ac.uk/512109/
• Graham, Jonathan; Farr, Gareth. 2014 Petrifying springs in Wales. Field Bryology (112). 19-29. http://nora.nerc.ac.uk/508972/
• Kooijman & Hedenas, 1991. Differentiation in the habitat requirements within the genus Scopridium, especially between S.revolvens and S.cossonii.  Journal of Bryology, 16 pp 619-627.

Riverside Anomodon

I usually associate Anomodon viticulosus with limestone, and it is certainly most abundant in VC35 on the Carboniferous Limestone of the lower Wye Valley and at lower altitudes around The Blorenge, but there are also plenty of colonies on riverside trees here.  I assume that this results from silt deposition, also favoured by Orthotrichum sprucei.

A riverside patch of Anomodon viticulosus, and the species' distribution in Monmouthshire, with riverine populations (ringed in yellow) on the Usk, Monnow and Trothy, and limestone populations (ringed in green) around the coalfield, in the Wye Valley and near Usk.

I saw a large patch of Anomodon on the base of a mature Sycamore by the River Usk just upstream of Newbridge-on-Usk on Saturday, during my first (very brief) bryo-recording walk of the season.  Orthotrichum sprucei was frequent, including on a Field Maple by the lane above the river (about 15m above the usual water level), and I also found a small population of O. rivulare (much rarer by the Usk than its relative).  Leskea and Syntrichia latifolia were abundant, but Plagiomnium rostratum was remarkably rare and I found no sign of Mnium marginatum, M. stellare, Dialytrichia mucronata, Tortula subulata or Myrinia pulvinata (all present but rare alongside Monmouthshire's rivers).  I was also surprised not to spot any Hennediella stanfordensis.  It would be a very interesting project to compare south Wales' varied riverine bryophyte floras.

Onllwyn Coal Tips

 A few days ago, in dismal conditions, H and I spent an hour strolling around an area of reclaimed coal tip in Onllwyn (Dulais Valley). Coal tips often support ecological mosaics of calcifuge and calcicole plants and their physical and mineral characteristics are interesting. The Onllwyn bryophyte community was remarkable for its large proportion of base-loving species; e.g. Calliergonella lindbergii, Campyliadelphus chrysophyllus, Ctenidium molluscum, Didymodon ferrugineus, Ditrichum gracile, Encalypta streptocarpa, Fissidens adianthoides, Tortella tortuosa, Trichostomum crispulum. We also noted a nice patch of Climacium dendroides.

Calliergonella lindbergii

Campyliadelphus chrysophyllus

Climacium dendroides

We usually pick up Campyliadelphus chrysophyllus as scattered individuals along tracks (often associated with Didymodon ferrugineus), but here it was present in fairly dense patches. In fact, at first I wasn't sure whether it was Campyliadelphus or small Campylium protensum. The costa in Campyliadelphus leaves is really difficult (for me) to see in the field, but later microscopic observation confirmed it.
The steep, wooded side to the coal tip had a more eclectic, luxuriant pleurocarp mixture with Eurhynchium striatum, Hylocomium splendens, Loeskyobryum brevirostre, Pseudoscleropodium purum, Rhytiydiadelphus loreus and R. triquetrus, a fairly typical community for wood and scrub on reclaimed coal tips in NPT.
Coal tips are nitrogen deficient habitat. Their ecological remediation and reclamation often involves planting nitrogen-fixing  trees, shrubs and herbaceous species in order to enrich the soil with combined nitrogen, e.g. legumes such as clovers and Sainfoin and non-legumes like Alders and Sea Buckthorn. In the last few years research into the nitrogen input dynamics of northern boreal forests (also fairly nitrogen deficient ecosystems) has revealed fascinating associations between moss species such as Pleurozium schreberi and Hylocomium splendens and free-living cyanobacteria (e.g. Nostoc) in loose 'symbiotic' nitrogen-fixing relationships. In these relationships the N-fixing cyanobacteria do not appear to integrate themselves into the tissues of these mosses in the same way as they do in the cavities found in certain liverworts (e.g. Blasia pusilla) and hornworts (e.g. Anthoceros agrestis). The reason I mention this is because some of our moss collections from Onllwyn had significant amounts of free-living colonial cyanobacteria (probably Nostoc spp.) associated with them (see photo below of colony found intermingled with Ceratodon purpureus).

Filamentous cyanobacterial colony associated with Ceratodon purpureus

The colony in the photo contains lots of heterocysts, (the larger, colourless cells in the filaments), which is where N-fixation takes place in the colony. I'm sure that most of you have observed cyanobacterial colonies like this among your collections from time to time, so I thought that it might be of interest if we occasionally note species and habitats where such associations occur in South Wales. Other nitrogen deficient habitats where you might observe this are heathland (e.g among Pleurozium and Hylocomium), bogs (among Sphagnum spp.), tarmac, and perhaps epiphytic habitats.

To put this into perpesctive, the mineral nitrogen input from the moss-cyanobacteria associations into northern boreal ecosystems is at least equal to that which comes from the atmosphere -  it is a very significant contribution.