Abstract: Species composition and abundance of epiphytic algae on mosses growing in the Altindere Valley National Park were investigated in March 2008. The epiphytic algae identified in these samples were 27 species in total, 15 of the Bacillariophyta, 7 of the Cyanophyta, 4 of the Chlorophyta and a single of the Euglenophyta species. The members of the Bacillariophyta were more frequently found among these epiphytic algae on mosses. Netrium digitus (Ehrenb.) Itzigs and Rothe var. curtum (Borge) Willi Krieg. was recorded for the first time in the desmids flora of Turkey. The epiphytic algal flora on mosses at the submerged habitat was the richest of the three habitats.
INTRODUCTION
The aim of this study was to investigate the Epiphytic Algae on Mosses as well as the endemic and rare Algae of Altindere Valley, situated in the Eastern Black Sea region of the Euro-Siberian floristic area. It is a part of Trabzon Province popular with tourists because this area is a national park and includes Sumela (Meryemana) Monastery, which is an important spiritual tourism site.
Although knowledge of moss flora has been accumulated, there are no published articles about epiphytic algal flora on mosses in Turkey. Whereas it is well known that mosses is often covered with epiphytic algae.
In the Altindere Valley National Park, the first study carried out by Palaba and Anşin (2006). It was reported forest flora in this study. Baydar and Özdemir (1996) described the moss flora of Altindere Valley National Park and Uzun and Terzioğlu (2008) studied vascular flora of forest vegetation. Kara and Şahin (2002) reported epipelic and epilithic algae of the Altindere River in the Altindere Valley.
MATERIALS AND METHODS
The Altindere Valley National Park is one of the most important national parks in Turkey, due to having the most diverse flora comprising several vegetation types (forest, sub alpine and alpine) and the historical value of Sumela (Meryemana) monastery. Situated on a rock face 300 m above the deep valley, it is an important place for spiritual tourism and a favorite spot with tourist traveling along the Black Sea coast. The annual average rainfall is 754 mm and the average temperature is 9.8°. The study area lies within the Eastern Black Sea Climatic Region according to the macroclimate types of Turkey. Additionally, the climate type of the study area is very humid (Cepel, 1995).
The moss samples used in this study were collected from the Altindere Valley National Park in Trabzon in 23 March 2008 (Fig. 1). The moss samples were collected from three different habitats. Nine moss samples from moist soil, five from on the wet rocks along the Altindere river and two from submerged were collected. A total of sixteen moss samples were used for this study (Table 1). In making a preparation, a moss sample was rewetted with distilled water for a few minutes. Algae were then scraped from the surface of a small piece (about 10 mm2) of moss with a needle under a binocular microscope.
The moss samples were incised by spatula from their habitats. After the samples were cleaned, they were preserved in plastic bags. Each plastic bag has a label providing the information about the habitat of the area. The moss species have been identified by many researchers (Watson, 1981; Frey et al., 1995; Cortini- Pedrotti, 2001; Herrnstadt and Heyn, 2004; Smith, 2004; Jimenez, 2006). Vouchers are deposited in the herbarium of Karadeniz Technical University, Faculty of Science and Arts, Department of Biology. The taxonomic identification of algae was carried out according to Krammer and Lange-Bertalot (1986, 1988, 1991a, b).
RESULTS
Twenty-seven species of epiphytic algae were recognized in the moss samples
examined. These algae were 15 species of the Bacillariophyta, 7
species of the Cyanophyta, 4 species of the Chlorophyta
and a single of the Euglenophyta species (Table 2).
Algae were predominantly observed among leaves and stems near the surface
of moss turfs.
| Fig. 1: | The Study Area (Altindere Valley National Park-Trabzon) |
The epiphytic algal flora on mosses at the moist soil habitat was the poorest of the three habitats. Nine moss samples were examined at this habitat (Table 1). Bacillariophyta and Cyanophyta were represented by four species and Hantzschia amphioxys and Lyngbya lagerheimii were observed in most of the samples. Eunotia praerupta became rather common in the moss sample of Barbula convoluta. Chlorophyta and Euglenophyta were represented by only a single species.
On the wet rocks habitats, the epiphytic algae on mosses were generally poor in quantity and number of species. Five moss samples were examined at this habitat (Table 1). Bacillariophyta was represented by 10 species while Cyanophyta was represented by 5 species. The members of the Chlorophyta and Euglenophyta were never observed in any samples at this habitat. Diatoma mesodon became rather common in the moss sample of Plagiomnium rostratum.
At the submerged habitat, on the contrary to the former two habitats,
the epiphytic algae on mosses were rather abundant. Two moss samples were
examined at this habitat (Table 1). A total of 18 species
were recorded, of which 12 belong to Bacillariophyta, 3 to Chlorophyta
and 3 to Cyanophyta. Diatoma mesodon became rather common in the
moss samples of Plagiomnium affine. Netrium digitus (Ehrenberg)
Itzigs and Rothe var. curtum (Borge) Willi Krieg. was recorded
for the first time in the desmids flora of Turkey (L: 90, W: 40 μm)
(Ohtani, 1986). This species was identified in the moss sample of Plagiomnium
affine.
| Table 1: | The moss samples studied |
| Table 2: | The algal species on mosses in the Altindere Valley National Park |
| 1Abbreviation same as Table 1 | |
DISCUSSION
Among the three habitats, submerged was the most favorable habitat for the epiphytic algae. The epiphytic algal flora on mosses turned out to be poorer than submerged algal flora in the Altindere Valley National Park. The same situation was observed in the Antarctic. At the submerged habitat, the members of the Bacillariophyta are rich in comparison with those of moist soil and wet rocks habitats. The same situation was observed in the Antarctic (Ohtani, 1986).
The scarcity of the Cyanophyta shown in the present study is remarkable. Whereas, Ohtani (1986) reported that the members of the Cyanophyta predominated in all the samples as in the earlier studies on the algal flora of the Antarctic region. Especially, the members of the Nostoc were more common on mosses in the Antarctic (Ohtani, 1986). Because, the species of Nostoc could colonize favorably in such nutrient-deficient habitats by the ability to fix atmospheric nitrogen and these algae might play an importance role in providing moss vegetation with nitrogen source. In the present study, the Nostoc genera was represented by unidentified one species. The proportion of the Oscillatoria members was much less than that of the submerged habitat.
Ohtani (1986) reported two species of Desmids in the Syowa Station in Antarctic. In the present study, the same result was observed. Lenzenweger (1996) reported that Netrium digitus var. curtum was associated with Sphagnum. In the present study, it was confirmed that the availability of water supply for the moss habitat seemed to largely influence the growth of the epiphytic algae as well.