An Unusual Epiphytic Habitat for Hedwigia ciliata (Bryophyta: Hedwigiaceae) in Poland (Central Europe)

In Poland, Hedwigia ciliata (Hedw.) P. Beauv., an obligatory epilithic moss species, has in recent years also been observed on the bark of trees. In this paper, we describe 25 recently identified sites in which epiphytic H. ciliata has been observed, and provide a plausible explanation to account for this phenomenon.


Introduction
Hedwigia ciliata (Hedw.) P. Beauv. (Bryophyta: Hedwigiaceae) is a moss species widely distributed in Europe, North America, and Asia, wherein it is generally found in temperate and boreal zones. is moss also grows at higher altitudes in Central and South America, Africa, South Australia, and New Zealand (Eckel, 2014;Ochyra et al., 1988). It typically colonizes sunny, dry, acidic rock substrates, including exposed erratic boulders, rock outcrops, stones, and rocks in abandoned quarries (Dierßen, 2001;Ochyra et al., 1988). Considerably less oen, it is also found on the bark of trees (Marques et al., 2005;Mazimpaka & Lara, 1995). Similar to other xerophytic species, this medium-sized moss is characterized by a number of morphological features (including hyaline hair on leaves and incrassate cells with papillae) that facilitate growth in strongly insolated habitats (Smith, 2004). e formation of sporophytes and capsules hidden between the leaves on short setae are also characteristic features of this taxon (Ignatova et al., 2016).
In Poland, H. ciliata is found at numerous sites in the south (particularly in the Sudetes), and in the moraine belt in the northern part of the country (West Pomerania, Masurian Lakeland, and Wielkopolska region) (Bednarek-Ochyra, 1998;Ochyra et al., 1988). Until relatively recently, at all sites in Poland in which this moss has been reported, it had been found exclusively on acidic rocky substrates (Bednarek-Ochyra, 1998;Fojcik, 2011;Górski et al., 2014;Górski, Pawlikowski, et al., 2017;Ochyra et al., 1988;Stebel, 2006;Wierzcholska et al., 2010;Żarnowiec & Stebel, 2014). Interestingly, however, in recent years, H. ciliata has also been found on limestone rocks (Stebel et al., 2010;   Vončina , and notably observed on the bark of trees (Stebel & Vončina, 2014). In this paper, we present data on the current distribution of the sites of epiphytic H. ciliata in Poland and the characteristics of colonized substrates, and also propose an explanation to account for this phenomenon.

Material and Methods
A list of sites with epiphytic H. ciliata was compiled based on the ATMOS grid square system (Ochyra & Szmajda, 1981) and is presented in Table S1. e nomenclature used for mosses follows that described by Hodgetts et al. (2020) and the one used for phorophytes follows that of Mirek et al. (2002). e locations of the epiphytic H. ciliata sites are indicated on the map shown in Figure 1.

The Geographical Distribution of Epiphytic Sites
e first documented occurrence of H. ciliata growing on bark in Poland was on that of a roadside Populus ×canadensis Moench tree found in the Western Carpathians (Stebel & Vončina, 2014)

Habitats
Epiphytic H. ciliata has been most frequently found on solitary trees growing along roadsides or in parks, although less oen in forests. Typically, recorded populations have been small (single tus of several square centimeters in area) and found colonizing tree bases, trunks, and even crowns, in both rural and urban areas. e moss has been recorded growing epiphytically on 12 types of phorophytes, both those native [Acer pseudoplatanus L.

Discussion
To date, the occurrence of epiphytic H. ciliata has only rarely been reported in Europe [e.g., Spain, Germany, Portugal (Geyer & Margenburg, 2015;Marques et al., 2005;Mazimpaka & Lara, 1995;Meinunger & Schröder, 2007;Otte, 2002;Rätzel et al., 2000Rätzel et al., , 2001, and Turkey (Erdaǧ et al., 2003)] and North America (Eckel, 2014), with all authors emphasizing the atypical nature of this epilithic growth habit on trees. Epilithic and epiphytic habitats tend to have certain physical characteristics in common, notably strong insolation and alternating periods of humidity and extreme drought (Vitt, 1981), and this ecological similarity implies that many bryophyte species can colonize both types of substrates (Mazimpaka & Lara, 1995). It has been suggested that a change in bryophyte habitat of this type may be associated with climatic factors. Barkman (1958), for example, concluded that as the climate becomes drier, epiphytic species move onto phorophytes, which have a greater water-holding capacity, sometimes on decaying wood, and finally rocks and soil. Moreover, with growth, the conditions on trees can begin to resemble those typical on rocks, and thus epilithic species increasingly oen colonize trees (Vitt, 1981). is habitat transition is facilitated to a large extent by the xeromorphic features of bryophytes that confer a certain degree of resistance to desiccation or contribute to reducing insolation. In this regard, H. ciliata is noted as a desiccation-tolerant bryophyte (Streusand et al., 1986), with several adaptations designed to minimize exposure, including hyaline leaf tips and upwardly curved branch tips (Glime, 2020). Changes in the ecological niche occupied by epilithic mosses and its association with Acta Societatis Botanicorum Poloniae / 2021 / Volume 90 / Article 903 Publisher: Polish Botanical Society climate change has also been discussed by Bates et al. (2004), who presented the examples of Syntrichia ruralis (Hedw.) F. Weber & D. Mohr, Grimmia pulvinata (Hedw.) Sm., and Tortula muralis Hedw., which are commonly found on the walls of buildings in Great Britain, whereas in localities characterized by warm dry climates, they typically grow only as epiphytes. It can thus be speculated that the observed expansion of the habitat range of H. ciliata to the trunks of trees, a new habitat type for this species in Poland, may represent a response to the ongoing changes in climate in this region of Europe (increases in temperature and the number of dry days per year, along with short but very heavy rainfall, alternating with long periods of drought) (Kundzewicz & Matczak, 2012). Given the large number of sites, their broad distribution, and the diversity of phorophyte hosts and habitats, it would appear that we are witnessing a particularly interesting phenomenon, which is certainly worthy of further investigation and monitoring. Moreover, H. ciliata is far from unique in this respect, given that in recent years in Poland, other moss species, hitherto known as obligatory epiliths, have also been increasingly found on the bark of trees, such as Cynodontium strumiferum (Hedw.) Lindb., Grimmia hartmanii Schimp. (Stebel, 2006), G. pulvinata (Fudali & Szymanowski, 2019;Fudali & Żołnierz, 2019;Wilhelm et al., 2015), Orthotrichum anomalum Hedw. (Fudali & Szymanowski, 2019;Stebel & Fojcik, 2016), and Tortula muralis (Fudali & Szymanowski, 2019;Plášek et al., 2014).

Supplementary Material
e following supplementary material is available for this article: Table S1. List of sites with epiphytic Hedwigia ciliata in Poland.