Diatoms are distributed in different aqueous habitats ranging from freshwater to brackish waters across a varying altitudinal gradient. They are helpful environmental indicators due to the sensitivity of each species to changes in the water’s physical, chemical and biological conditions (Sabater 2009). Besides colonising in freshwater and marine habitats around the world, diatoms colonise in a variety of habitats including acidic swamps, alkaline lakes, and hot springs (Hecky & Kilham 1973; Sanchez et al. 1987; Ligowski et al. 1992; Owen et al. 2008). High-altitude environments represent unique environmental settings with cold-climate and dry conditions (Wolfe 2013). Water bodies here include different categories within it, such as lakes, ponds, rivers, glaciers, glacial lakes, hot springs, etc. They are characterised by a unique diversity of water sources, habitats, species, and communities, and generally show limited human interference compared to other water bodies (Kumar and Lamsal 2016). The climatic conditions of the high-altitude region of Ladakh possess extremes of weather combinations such as extreme cold in winter, water scarcity, and intense heat in summer during the day and cold at night, along with very low atmospheric pressure and oxygen (Chaurasia et al. 2007; Dorjey 2019).
At high altitude, of more than 3500 amsl, hot springs, lakes and wetlands possesses extreme environmental conditions such as low temperatures, low nutrients, and short growing times, and they spend a large part of the year under ice and snow. Therefore, they usually have nutrient-poor conditions. This extreme climatic and physico-chemical condition supports diatom assemblage, unique to this high-altitude water bodies (Şahin and Barinova 2022).
The distinctive composition and abundance of diatom species in a water body is influenced by various factors, including pH, ionic strength, nutrient concentrations, temperature, light, oxygen saturation, and habitat availability (Patrick & Reimer 1966; Round 1981; Stevenson et al. 1996). Most of these factors depend strongly on climate, geology, topography, land use and other landscape characteristics (Potapova and Charles 2002). Thus, as each diatom species has its own specific water quality requirements, they can serve as a powerful indicator of environmental changes in the freshwater aquatic systems (Dixit et al. 1992; Smol and Stoermer 2010; Stevenson et al. 2010). However, prerequisite to the monitoring of an aquatic environment using biological organisms such as diatoms is a proper understanding of the diatom ecology, as these aquatic organisms are regularly exposed to that environment, and can provide information about the environmental conditions and the ecological health of the particular ecosystem (Thacker and Karthick 2022). Many diatom species are known to have world-wide distributions, while others appear limited to certain climatic zones or geographical regions, or are endemic to particular water bodies, such as ancient lakes. According to Kociolek & Spaulding (2000), the proportion of geographically restricted diatom species is much higher than formerly thought, which points towards the importance of geographical factors in explaining patterns in diatom flora (Potapova and Charles 2002). Thus, for diatom-based water quality monitoring, a preliminary requirement is to determine the diversity and taxonomy of diatoms, which will assist the furthering of knowledge of diatom ecology and species bio-geographical distribution.
The present work deals with the diatom diversity of one of the highest-altitude aquatic environments in the world – Ladakh, Western Himalayas. It is an arid desert with very scarce natural vegetation, and most land cover is < 3500 above mean sea level (amsl). With a highly pristine, freezing environment, precipitation and hot-spring zones scattered close to the Indus Tsangpo Suture Zone (ITSZ), Ladakh can be considered a type of area for studying life in extreme environments (Ansari et al. 2020). Researchers have studied and observed the geothermal potential and microbial biodiversity of a few hot springs across the Leh and Ladakh regions. Plants such as
Prior studies on the diatoms from the Western Himalayas include a pioneering work by Compère (1983) with a record of 480 algal species, out of which Kashmir and the high valleys of the Ladakh region alone comprised 229 diatoms species. Kumar et al. (2012) presented a similar study of diatoms in three high-altitude lakes and the Indus River of the trans-Himalayas, and recorded 193 species of diatoms. Recent work by Phartiyal et al. (2020) reports the late-Holocene climatic record in glacial lake sediments and documented 13 diatom taxa from Ladakh. The study revealed that
On reviewing the different studies on diatom assemblages of high altitudes worldwide, the overall altitude ranged from 1,030 amsl (Schneck et al. 2007) to 4,308 amsl (Blanco et al. 2013). In a survey of 60 high mountain lakes of Colombia’s Eastern range, researchers explained how the water characteristics are significant in high-altitude ecosystems and responsible for the species composition. An investigation from the high-altitude Andean saline lakes sites (4130 to 4308 amsl) described six diatom taxa. In one of the earliest studies of diatoms in Mount Kenya, samples were collected from a high-altitude pond (4358 amsl in which the diatoms were mentioned as ‘acidobionts’, i.e., acidophilic species (below pH 6). However, the study did not specify the alpine character of the sites (Cholnoky 1960). A subsequent study of the Rwenzori mountains put forth the diatom diversity at high-altitude ranging from 3734–4465 amsl (Cholnoky 1964). The study by Cantonati et al. (2001) reported only a few species explicitly from unique environments such as high-altitude hot springs. Their sample locations originate from the Himalayas and reach an altitude of 4697 amsl. Colla et al. (2021) studied diatom assemblages from four saline wetlands of Argentinian Puna at an altitude of 3330 amsl. The authors explain the various environmental factors that affect ecological parameters at the diatom community level. Recently, Islam et al. (2021) studied the land use land cover (LULC) of some high-altitude mountain lakes in Kashmir Himalaya. The quality index revealed excellent water quality, while the algal composition comprised 45 diatom species amongst 61 taxa studied.
The hot springs in the Ladakh region are located in one of the world’s highest mountain regions. Even though the unique biodiversity of this region is of interest due to its easily accessible terrain compared to all other high-altitude places on the Earth, the research reflecting the taxonomic and ecological account of diatoms is scarce. Hence, the present study aims to investigate and document the commonly occurring diatom flora in various aquatic ecosystems of the Ladakh region.
The land surface of Ladakh covers an area of 95,876 km2 encompassing two zones, a lower zone starting at the altitude of 2700–4500 amsl, and the upper zone above 4500 amsl, which covers 74 percent of the land (Smallman & Brown 2015; Bhat 2015). The present study covered the lower region and reached an altitude of 4552 amsl. The sampling sites include multiple habitats such as lakes, rivers, streams, hot springs, and Tso Moriri, a saline lake (Fig. 1). The collection of diatom samples was undertaken during May and June 2019 and September 2020. The sample details are given in Table 1.
Map showing the different study sites of Ladakh, Western Himalayas, India
The sample collection details of different localities of the study area (– indicates that no information is available)
S.No. | Acc. No. AHMA | Location | Habitat/Microhabitat | Latitude (°N) | Longitude (°E) | Elevation (a.m.s.l.) | Temp. (°C) | Collector’s Name |
---|---|---|---|---|---|---|---|---|
1 | 1343 | Puga, Ladakh | - | 33.227699 | 78.303133 | 4422 | – | Dr. Raymond Duraiswami |
2 | 1344 | - | 33.227731 | 78.303027 | 4421 | – | ||
3 | 1345 | Chumathang hot Spring, Ladakh | Stream, Epiphytic | 33.602777 | 78.323055 | 4022 | 80 | |
4 | 1346 | 33.360277 | 78.323055 | 4022 | 53 | |||
5 | 1347 | 33.360555 | 78.324444 | 4028 | 42 | |||
6 | 1348 | 33.360555 | 78.324444 | 4028 | 32 | |||
7 | 1349 | Pool, Epiphytic | 33.360277 | 78.324722 | 4024 | 50 | ||
8 | 1350 | 33.360555 | 78.324722 | 4030 | 50 | |||
9 | 1351 | 33.360277 | 78.323055 | 4024 | 53 | |||
10 | 1352 | Stream, Epiphytic | 33.360277 | 78.323055 | 4021 | 52 | ||
11 | 1353 | 33.361001 | 78.323055 | 4017 | 30 | |||
12 | 1354 | Small man made gutter, Epilithic | 33.36055 | 78.323333 | 4024 | 80 | ||
13 | 2097 | Nacho Resort, Hunder, Nubra Valley, Leh | Stream, Epibryophytic | 34.58945 | 77.462821 | 3150 | – | Dr. Aravind Madhyastha |
14 | 2098 | Stream, Epilithic | 34.58945 | 77.462821 | 3150 | – | ||
15 | 2643 | Guphunks, Spituk, Leh | Pond, Epiphytic | 34.1352 | 77.50394 | 3196 | – | |
16 | 2644 | Indus river, Leh | River, Epilithic | 34.1021 | 77.58858 | 3229 | – | |
17 | 2645 | Stream, Epilithic | 34.10215 | 77.58858 | 3229 | – | ||
18 | 2646 | 34.10215 | 77.58858 | 3229 | – | |||
19 | 2647 | Tiri Village, Leh | Stream, Epiphytic | 34.5895 | 77.4628 | 3229 | – | |
20 | 2648 | River, Epiphytic | 33.61345 | 78.08371 | 3705 | – | ||
21 | 2649 | Chumathang, Leh | River, Epilithic | 33.36108 | 78.32324 | 4031 | – | |
22 | 2650 | Tso Moriri Lake, Ladakh | Stream, Epilithic | 33.19381 | 78.35872 | 4543 | – | |
23 | 2651 | Lake, Epilithic | 32.96487 | 78.26185 | 4552 | – | ||
24 | 2652 | Lake, Epiphytic | 32.99837 | 78.25989 | 4541 | – | ||
25 | 2653 | Puga, Ladakh | Stream, Epiphytic | 33.22669 | 78.31535 | 4420 | – | |
26 | 2654 | 33.22669 | 78.31535 | 4420 | – | |||
27 | 2655 | Tso kar lake, Leh | Lake, Epiphytic | 33.32573 | 77.7433 | 4126 | – | |
28 | 2656 | Gya village, (near ice stupa cafe) | Stream, Epilithic | 33.64404 | 77.7633 | 4126 | – | |
29 | 2657 | Hunder, Nubra valley | River, Epiphytic | 34.5738 | 77.50023 | 3100 | – | |
30 | 3320 | Shey-chuchot road. Indus river | 34.05812 | 77.640838 | 3240 | – | ||
31 | 3321 | 34.05812 | 77.640838 | 3240 | – | |||
32 | 3322 | River, Sediment+Episamic | 34.05812 | 77.640838 | 3240 | – | ||
33 | 3323 | 34.05812 | 77.640838 | 3240 | – | |||
34 | 3324 | Mathoo raod, near Husainiya Chuchot Gongma | River, Epilithic | 33.99742 | 77.63501 | 3484 | – | |
35 | 3325 | Stakna Bridge, Indus river | River, Epiphytic | 34.007556 | 77.688138 | 3273 | – | |
36 | 3326 | River, Epilithic | 34.007556 | 77.688138 | 3273 | – | ||
37 | 3327 | Mughalpura, Srinagar-Leh Highway | Stream, Epiphytic | 34.330304 | 75.572423 | 3271 | – |
At each sampling site, diatoms were sampled from all possible microhabitats (epiphytic, epilithic and epibryophytic). In a clean polythene bag, the plant materials along with water were taken and shaken vigorously to dislodge the diatoms attached to the surface of the plant material. The moss-attached diatoms, also known as epibryophytic diatoms, were squeezed and washed with water to obtain a brown suspension and transferred into Whirlpak® sample bags. Epilithic diatoms were scraped with a knife or spoon and poured into sample bags that contained a small amount of water. The water temperature in the hot springs sites was measured using the HANNA handheld meter. The geographical coordinates and altitude readings were recorded at each sampling site using a GARMIN ETREX® Global Positioning System. The geo-coordinates were used to prepare the study area map (Fig. 1) using QGIS 3.14.0. Two site coordinates (S. No. 1 and 2 in Table 1) were extracted from Google Earth. The diatom samples were transported to the laboratory for further analysis.
The laboratory procedure involves the oxidisation of diatom samples using Nitric Acid (HNO3) at 90°C for about 1–3 hours to remove organic matter. The process is followed by repeated rinsing and centrifugation at 3000 rpm for 10 minutes with distilled water. The cleaning procedure is repeated at least four times or until the sample reached a neutral pH. Finally, the cleaned samples were labelled and stored in glass vials and archived at AHMA – Agharkar Research Institute Herbarium, Pune.
List of taxa present in each of the diatom samples collected from Ladakh
S.no | Taxa name | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 |
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The cleaned material was air-dried on the coverslips and mounted with Naphrax® mounting medium for preparing permanent slides. Microscopic observations were made using the Olympus BX 53 (Tokyo, Japan) microscope, equipped with Differential Interference Contrast optics with a 100× 1.4 oil immersion objective. Light Microscopic plates were prepared using GIMP (version 2.10.22) and Inkscape (version 1.0.2) open-source software. All taxa were identified using relevant monographs and papers given under the description of each taxon. The taxa descriptions presented here are based on our measurements from the photomicrographs taken using an Olympus DP 73 digital camera with cellSens standard 1.16 imaging software.
During the study, the highest altitude record in the Ladakh region was 4552 amsl at Tso Moriri Lake, the minimum was 3100 amsl at Hunder, in Nubra Valley. A total of thirty-seven samples from 19 different sites at varying altitudes and habitats, such as streams (16 samples), rivers (11 samples), lakes (3 samples), pools (3 samples), a pond (1 sample), unknown (3 samples) were collected. Amongst these, ten samples were from hot springs of the Chumthang region. If we classify the collection of the samples, microhabitats wise, then most of the samples were from epiphytic (20) and epilithic (12) microhabitats. The remainder of the samples were from epibryophytic (1), epipsammic (2), and unknown (2) microhabitats. We identified 74 taxa belonging to 40 genera, including 7 infraspecific (cf.) taxa and 4 unidentified taxa. The following is a list of diatom taxa provided with the literature reference, morphological data, and location with a sample accession number.
1-3.
Ref. Kützing, 1844 (p. 5; pl. 30: 68); Foged, 1966 (p. 49; pl. 1; 4–8); Olszyński, R. M., & Żelazna-Wieczorek, J., 2018 (p. 164; pl. 168: 113–120; pl. 170: 127–133; Kulikovskiy, M. et al., (2022)
The valve is disc-shaped, with a typical tangential undulation of the smooth central area and a diameter of 10.0–15.6 μm and well-defined striae 9–13 per 10 μm. The valve face is flat and circular. The central area is distinct and isolated from the marginal chambered striae. The central area contains 1–3 fultoportulae, which are distinctly visible in LM.
Habitat: pool; Microhabitat: Epiphytic; Location: Chumthang Hot Springs
Ref. Mohan & Stone, 2018 (p. 102; pl. 104: A–I)
The valve is similar to a disc; the valve face is separated into a hyaline central area and a marginal area with radial striae and alternating three wedge-shaped distinctly triangular depressions. The central area exhibits radial undulations and comprises 2/3 of the valve face area. The diameter is 6.8–13.6 μm and striae number 15.0–19.0 per 10 μm.
Habitat: lake; Microhabitat: Epiphytic; Location: Tso Moriri Lake, Ladakh
Ref. Bory, 1824 (p. 446; 1), Lange-Bertalot et al., 2017 (p. 187; pl. 4:1–6), Kulikovskiy et al., 2016 (p. 92; pl. 8:1–4), Bey & Ector, 2013 (p. 20; pl. 205:1–25)
The valve is elliptic to lanceolate with broadly-rounded sub-rostrate ends and rimoportula present near one apex of the valve. The valve length is 36.5–50 μm and the width is 10.6–11.2 μm. The central area is vacant. The axial area is linear to very narrow. The transapical ribs number 7–8 per 10 μm. Striae are not visible in LM.
Habitat: stream, river; Microhabitat: Epilithic, Epiphytic, Epipsammic; Location: Indus River, Leh, Hunder, Nubra Valley, Shey-Chuchot Road
Ref. Williams, 2012 (p. 260; pl. 259: 3–5), Lange-Bertalot et al., 2017 (p. 185; pl. 3: 18–20), Bey & Ector, 2013 (p. 200; pl. 201: 1–43)
The valve is elliptical, lanceolate with rounded to sub-capitate apices. The length is 19.5–32.5 μm and the width is 3.1–4.8 μm. The central area is vacant. Transapical ribs number 5–6 per 10 μm. Striae are not visible in LM.
Habitat: stream, river; Microhabitat: Epilithic; Location: Indus River, Leh, Stakna Bridge
Ref. Delgado et al., 2016 (p. 248; pl. 6: 3–77)
The valve is lanceolate in larger specimens to rhombic lanceolate in smaller specimens, with rostrate ends. The length is 13.5–15 μm and the width is 5.3–5.5 μm. Pseudo-raphe narrow, linear, central area larger. The central area is vacant, although ghost striae may be present. Striae number 14 per 10 μm and are parallel to the central area, becoming slightly radiate at the poles.
Habitat: stream and river; Microhabitat: Epibryophytic, Epilithic; Location: Naycho Resort, Hunder, Nubra Valley, Leh, Indus River, Stakna Bridge.
Ref. Rumrich et al., 2000 (p. 246; pl. 247: 7–13), Roy & Keshri, 2016 (p. 9–10; pl. 10:15–16), Siver et al., 2005 (p. 91; pl. 269: 11–18)
The valve is lanceolate to linear elliptical, narrowing to rostrate, slightly capitate apices. The length is 16.2–23.5 μm, and the width is 3.2–4.3 μm. A pseudoraphe is present and narrow; the central area clearly visible on one side, and slightly inflated. Ghost striae devoid of ornamentation are observed. Striae number 10–14 per 10 μm and are mostly parallel, and radiate slightly towards the apices.
Habitat: stream; Microhabitat: Epibryophytic; Location: Naycho Resort, Hunder, Nubra Valley, Leh, and Tso Moriri Lake, Ladakh
Ref. Patrick & Reimer, 1966 (p. 13; pl. 4: 20), Lange-Bertalot et al., 2017 (p. 336; pl. 5: 8–12), Bixby & Jahn, 2005 (p. 222; pl. 223: 9–19)
The valve is arcuate, with a convex dorsal margin and a concave ventral margin. Apices of the valve are sub-capitate. The length is 37.4–43.7 μm and the width is 5.4–6.2 μm. The central region features a swelling of the ventral margin, and the central area is entirely vacant, although ghost striae may be present. The axial area is narrow and linear. Striae number 12–18 per 10 μm and are parallel to slightly radiate near the apices.
Habitat: stream and lake; Microhabitat: Epibryophytic and Epililthic; Location: Naycho Resort, Hunder, Nubra Valley, Leh and Tso Moriri Lake, Ladakh
Ref. Genkal et al., 2008 (p. 322; pl. 1: 1–13), Vishnjakov et al., 2015 (p. 223; pl. 226: a–j), Kulikovskiy et al., 2016 (p. 99; pl. 13: 4–6)
The valve is arcuate, with tapering apices, a convex dorsal margin and concave ventral margin. It is slightly sub-rostrate at both apices. The length is 46.8–56.2 μm and the width is 6.2–6.5 μm. The central region is swollen in the ventral margin and central area is entirely vacant or has ghost striae. Axial area is narrow, linear. Striae number 17–18 per 10 μm and are parallel to slightly radiate near the apices. Striae are easily visible in LM.
Remarks: This is the first time this taxon is recorded outside the type locality (Lake Baikal). The presence of this taxon proposes that there could be some biogeography link with central Asia.
Habitat: stream; Microhabitat: Benthic; Location: Naycho Resort, Hunder, Nubra Valley, Leh
Ref. Kützing, 1849 (p. 12), Lange-Bertalot et al., 2017 (p. 468; pl. 3: 6–10)
The valve is elliptical-lanceolate, with broadly rounded apices. The length is 10–12.1 μm and the width is 4.9–5.6 μm. The central area is vacant. Transapical ribs number 6–8 per 10 μm.
Habitat: stream and river; Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Williams & Round, 1988 (p. 276; 28–31); Lange-Bertalot et al., (2017 p. 530; pl. 10:27–31); Kulikovskiy et al., 2016 (p. 101; pl. 11: 56–66)
The valve is broadly lanceolate to elliptic, with broadly rounded ends with a flat valve face. The frustules are rectangular. The length is 16.4–18.1 μm and the width is 5.6–5.9 μm. The central area is vacant. The axial area is lanceolate and wider. Striae number 9–10 per 10 μm, and are short, distinct, extend onto the mantle and are parallel to the central area and radiate toward the ends.
Habitat: lake; Microhabitat: Epiphytic; Location: Tso Moriri Lake, Ladakh
Remarks:
Ref. Kulikovskiy et al., 2011 (p. 366), Kulikovskiy et al., 2016 (p. 102; pl. 11: 43–46), Lange-Bertalot et al., 2017 (p. 531; pl. 10: 37–41), Куликовский et al., 2011 (p. 366; pl. 374: 74–78)
The valve is broadly lanceolate to rhombic-lanceolate, with sub-rostrate to subcapitate ends. The valve face is flat or slightly undulate due to raised costae. The length is 17.8–18.1 μm and the width is 4.0–4.1 μm. The centre margins are strongly constricted. The axial area is widely lanceolate. Striae number 18–20 per 10 μm, are distinct and parallel to radiate in the central area to slightly radiate toward the valve ends, and extend onto the valve mantle.
Habitat: stream; Microhabitat: Epiphytic; Location: Tiri Village, Leh
Ref. Morales et al., 2015 (p. 458–460; pl. 459: 48–60), Rusanov et al., 2018 (p. 6; pl. 7: 44–58)
The valve is rhomboid to lanceolate with tapering ends terminating in broadly-rounded apices. The valve shape is rhomboid to elliptical with tapering ends, ending in narrow rounded apices. The length is 8.7–13.7 μm and the width is 5–8.1 μm. The central area is vacant. The axial area is linear. Striae number 12–14 per 10 μm and are parallel at the central portion and radiate near the apices.
Habitat: stream and river; Microhabitat: Epiphytic; Location: Naycho Resort, Hunder, Nubra Valley, Leh
Remarks: Our specimen resembles the species
Ref. Compère, 2001 (p. 97–101), Kheiri et al., 2018 (p. 359; pl. 365: 33), Kulikovskiy et al., 2016 (p. 110; pl. 15: 4–10), John, 2018 (p. 95; pl. 350: I–J)
The valve is narrowly linear and taper from the middle towards slightly sub-capitate ends, and rimoportula are present at both ends. The length is 140–145 μm and the width is 6–6.1 μm. The central area is rectangular and contains ghost striae and shortened marginal striae. The axial area is linear, narrow and expanded slightly near to the central area. Striae 10–11 per 10 μm, parallel throughout the valve and slightly radiate at the ends.
Habitat: river; Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Pfitzer, 1871 (p. 77; pl 3: 10); Lange-Bertalot et al., 2017 (p. 107; pl. 68: 31); Kulikovskiy et al., 2016 (p. 224; pl. 123: 1–7); Schoeman & Archibald, 1988 (p. 226; pl 225: 23–24)
The valve is linear-elliptic or rhombic-lanceolate with subrostrate to capitate ends. The length is 59–60 μm, and the width is 15.6–16.2 μm. The central area is slightly asymmetrical reaching up to the valve margin on one side. The axial area is narrow and bordered by areolae on both sides. The raphe is linear and lateral, and the terminal and distal ends of the raphe curve towards one side. The Striae number 18–20 per 10 μm and are weakly radiate at the central and parallel at the ends. Puncta pattern is distinct.
Habitat: river; Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Werum, M. & Lange-Bertalot, H., 2004 (p. 180; pl.46: 1–12); Levkov et al., 2016a (p. 172; pl. 169: 48–68); Lange-Bertalot et al., 2017 (p. 567; pl. 59: 4–7)
The valve is rectangular, linear to linear-lanceolate with triundulate margins and abruptly protracted apices. The central undulation is distinctly wider. In larger specimens, the valves are slightly constricted in middle. The valve length is 13.3–14.3 μm, and the width is 3.6–3.7 μm. The central area is narrow with distinct stauros. The raphe is straight and filiform. Striae are 28–30 per 10 μm. Transverse striae are fine, and are parallel throughout. Areolae are barely visible in LM.
Habitat: stream; Microhabitat: Epiphytic; Location: Tiri Village, Leh
Ref. Lange-Bertalot & Moser, 1994 (p. 55; pl. 7, 9: 8–18, 4–6), Lange-Bertalot et al., 2017 (p. 117; pl. 60: 12, 13)
The valve is lanceolate to rhombic-lanceolate with obtusely rounded apices. The length is 33.5–39.8 μm, and the width is 5.2–5.6 μm. The central area is circular to oval. The raphe is linear and narrow. The striae number 29–30 per 10 μm and are parallel near the central area and become convergent towards the ends.
Habitat: lake; Microhabitat: Epiphytic; Location: Tso Moriri Lake, Ladakh
Remarks:
Ref. Lange-Bertalot et al., 2004 (p. 12; pl. 13: Fig. 1); Lange-Bertalot et al., 2017 (p. 122; pl. 69: Figs. 29, 30)
The valve is linear with broadly rounded apices. The length is 23–48.1 μm and the width is 5.6–8.7 μm. The central area is broad, with a rectangular fascia. The axial area is linear, and is narrow at the apices. The raphe is lateral and filiform, and the proximal ends of the raphe are unilaterally deflected to one side. Striae number 22–23 per 10 μm, and are slightly radiate to parallel throughout the valve.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
52-55.
Ref. Levkov et al., 2016 (p. 136; pl. 17: 1–18, pl. 18: 1–20, pl. 19: 1–6)
The valve is linear-lanceolate to rhombic-lanceolate with shortly protracted, rostrate to sub-capitate apices. The valve length is 23.0–27.5 μm and the width is 5.5–6.0 μm. The central area is vacant or weakly developed. The axial area is narrow and linear. The raphe is straight and filiform. The proximal raphe endings are expanded into central pores and are slightly deflected. The striae number 18–19 per 10 μm and are parallel to slightly radiate in mid-valve, becoming convergent towards the apices.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh and Puga Ladakh
The valve is linear-lanceolate with acute ends. The valve length is 36.0–47.5 μm and the width is 6.5–8 μm. The central area is small or weakly developed and is slightly wider than the axial area. The axial area is narrow and linear. The raphe is straight, and the proximal raphe endings are expanded. The striae number 19–20 per 10 μm, and the central striae are parallel to slightly radiate and convergent towards the ends.
Habitat: stream and river; Microhabitat: Epiphytic; Location: Puga, Ladakh and Shey-Chuchot Road, Indus River
Ref. Round et al., 1990 (p. 668); Kulikovskiy et al., 2016 (p. 285; pl. 61: 35–37); Mirzahasanlou et al., 2018 (pl. 529; 32); Lange-Bertalot et al., 2017 (p. 262; pl. 47: 28–31)
The valve is elliptical with obtuse to broadly rounded apices. The length is 27.5–27.9 μm and the width is 10.2–10.6 μm. The central area is variable. The axial area is straight and narrow. The raphe is distinct, straight and filiform. The striae number 24–25 per 10 μm, and striae radiate throughout the valve. A lyre-shaped non-ornamented area is present on the valve surface. The areolae are not visible in LM.
Habitat: stream; Microhabitat: Epiphytic; Location: Tiri Village, Leh
Ref. Lange-Bertalot et al., 2017 (p. 284; pl. 62: 3–7)
The valve is linear-elliptical to linear-lanceolate, with apices broadly rounded or protracted. The length 50–55 μm, and the width is 9.3–9.4 μm. The central area is elongate and distinct. The raphe is well developed and lies between two siliceous ribs, and is linear and straight. The axial ribs are discontinuous and are interrupted in the central area by a central nodule. The striae number 28–30 per 10 μm, are parallel throughout the valve and are slightly or strongly convergent near the apices.
Habitat: stream; Microhabitat: Epiphytic; Location: Tiri Village, Leh
Ref. Kutzing, 1844 (p. 91; pl. 4: 23); Lange-Bertalot et al., 2017 (p. 401; pl. 36: 1–5); Kulikovskiy et al., 2016 (p. 335; pl. 47: 1–6); Lee, 2012 (p. 34; pl. 36: C)
The valves narrow-lanceolate, with acutely rounded apices. The length is 68.9–75.1 μm, and the width is 10.1–10.5 μm. The central area is rhombic, asymmetrical, and transversely widens to become elliptical. The axial area is very narrow. A central nodule appears to be thicker on one side. The raphe is straight and filiform, with the ends deflected onto the same side. The striae number 9–10 per 10 μm and strongly radiate, becoming convergent towards the poles. Lineolae are visible in the LM.
Habitat: river, lake; Microhabitat: Epilithic Epiphytic; Location: Indus River, Leh, Tso Moriri Lake, Ladakh and Hunder, Nubra Valley
Ref. Lange-Bertalot et al., 2017 (p. 409; pl. 36: 11–16); Kulikovskiy et al., 2016 (p. 339; pl. 49: 13–20); Lee, 2012 (p. 42; pl. 43: j, k)
The valve is linear-lanceolate, with rounded apices. The length is 48–64.3 μm, and the width is 8.1–9.3 μm. The central area is rectangular, almost reaching the margins of the valve, and has 2–3 irregular shortened striae. The axial area is narrow and distinct. The raphe is linear and straight. The striae number 10–12 per10 μm, and are slightly radiate towards the middle of the valve but are parallel towards the apices.
Habitat: stream; Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Lange-Bertalot, H. & Metzeltin, D., 1996 (p. 79; pl. 80: 3–8,)
The valves is lanceolate with narrow, rostrate to subcapitate ends. The length is 31.2–36 μm, and the width is 6.8–7.0 μm. The central area is irregular, elliptical and widened. The axial area is narrow, linear, and widens slightly towards the central area. The raphe is lateral and filiform with comparatively narrowly spacing. The central area is strongly marked with pores. The striae number 12–14 per 10 μm and are radiate at the centre to weakly convergent at the poles. Lineolae are clearly visible in LM. The lineolae are 28–31 per 10 μm.
Habitat: river; Microhabitat: Epilithic and Epiphytic; Location: Stakna Bridge, Indus River
Ref. Schoeman, 1970 (p. 342; pl. 3: 36–37), Lange-Bertalot et al., 2001 (p. 45; pl. 43: 7–14, Lange-Bertalot et al., 2017 (p. 396; pl. 30: 20–24)
The valve is narrow to broadly lanceolate with acutely rounded apices. The length is 22.5–32.0 μm, and the width is 5.4–5.6 μm. The central area is transversely elliptical or irregular-rectangular, and is often slightly asymmetrical. Axial area narrow and linear. The raphe is filiform to weakly lateral, and the proximal raphe ends are straight and slightly expanded. The striae number 12–13 per 10 μm and are radiate and slightly curved at the centre of the valve, becoming convergent towards the poles.
Habitat: pond and river; Microhabitat: Epiphytic and Epilithic; Location: Guphunks, Spituk, Leh and Indus River
Ref. Ralfs 1861 (p. 901; pl. 40) Lange-Bertalot et al., 2017 (p. 26; pl. 41: 1–29); John, 2018 (p. 238; pl. 572: C); Lange-Bertalot et al., 2017 (p. 385; pl. 33: 31–36)
The valve is narrow to broadly lanceolate with acutely narrow apices. The length is 19.5–32 μm, and the width is 4.3–6.2 μm. The central area is small with an irregular border. The axial area is narrow and linear. The raphe is filiform to weakly lateral. The proximal ends are slightly expanded and both distal raphe ends curve towards the second valve. The striae number 12–16 per 10 μm, are strongly radiate and are convergent at the ends.
Habitat: pond and stream; Microhabitat: Epiphytic; Location: Guphunks, Spituk, Leh and Pond
Ref. Donkin, 1861 (p. 10; pl. 1: 10); Lange-Bertalot et al., 2017 (p. 396; pl. 40: 4–6); Foged, 1978 (p. 90; pl. 206: 9); Lange-Bertalot et al., 2001 (p. 11; pl. 94: 19–24)
The valve is lanceolate with weakly protracted acutely rounded apices. The length is 26.2–27 μm, and the width is 5.8–6.1 μm. The central area is variable, asymmetrical and bordered by short striae. The axial area is narrow and straight. The raphe is filiform to weakly lateral. The proximal ending is strongly deflected. Striae number 18–20 per 10 μm and are slightly radiate at the centre and parallel to convergent at the apices.
Habitat: stream and river; Microhabitat: Epilithic; Location: Gya Village and Puga, Ladakh
Ref. Lange-Bertalot et al., 2001 (p. 25; pl. 33: 1–10, pl. 70:1)
The valve is broadly lanceolate with shortly protracted, subrostrate ends. The length is 14.9–17.4 μm and the width is 4.8–6.2 μm. The central area is small and irregular. The axial area is linear and very narrow. The raphe is filiform and straight. Striae number 17–18 per 10 μm and are radiate and curved near the centre and convergent at the valve apices.
Habitat: stream, river; Microhabitat: Epilithic, Epiphytic; Location: Indus River, Leh, Shey-Chuchot Road
90-92.
Ref. Van Heurck, 1880 (pl. 7: 7), Lange-Bertalot et al., 2017 (p. 403; pl. 28: 9–11), Lee 2012 (p. 35, 36; pl. 36: E); Lange-Bertalot et al., 2001 (p. 63; pl. 3: 1–5)
The valve is broadly elliptical to lanceolate with broadly rounded ends. The length is 33.2–54.3 μm, the width is 14.5–15.0 μm. The axial area is narrow and the central area is transverse, formed by alternating short and long striae. The raphe is filiform; the raphe branches are nearly straight, and the proximal raphe ends are straight, small and bulbous. Striae number 8–9 per 10 μm and are wide and radiate and nearly parallel at the ends. Lineolae are easily visible in LM.
Habitat: Stream; Microhabitat: Epiphytic; Location: Chumathan Hot Springs, Ladakh
The valve is linear, margins triundulate with slightly sub-capitate apices. The length is 32.2–36.2 μm and the width is 5.6–5.8 μm. The central area is broad with transverse fascia. The axial area is narrow, widening towards the centre. The raphe is straight, and the terminal nodules are distinct. Striae number 18–20 per 10 μm and are radiate in the central area and convergent towards the apices.
Habitat: stream; Microhabitat: Epilithic; Location: Indus River, Leh
Remarks: This taxon morphologically resembles
Ref. Krammer, 2000 (p. 97; pl. 75: 10–12); Kulikovskiy et al., 2016 (p. 298; pl. 78: 6)
The valve is linear, lanceolate with constricted and slightly capitate rounded ends. The length is 24.5–48.7 μm and the width is 7.5–11.0 μm. The central area is large, transverse and elongate. The axial area is narrow, with a width of approx.1/4 of the width of the valve, expanding broadly into the central area. The raphe is filiform with drop-shaped curved proximal ends. Striae number 10–14 per 10 μm and strongly radiate in the middle portion and converge at the ends.
Habitat: river; Microhabitat: Epilithic; Location: Chumthang, Leh
Ref. Rabenhorst, 1864 (p. 222); Krammer et al., 2000 (p. 69; pl. 45: 1–17); Lange-Bertalot et al., 2017 (p. 481; pl. 72: 9–3); Hofmann et al., 2013 (p. 482; pl. 70: 9–13)
The valve is linear to elliptic, with parallel margins in larger specimens. The ends are broadly apiculate. The length is 25.6–31.2 μm and the width is 6.6–7 μm. The central area is broad with a rhombic fascia. The axial area narrows at the ends and is wider towards the central area. The raphe is weakly lateral and straight. The proximal raphe ends are distinctly inflated and laterally deflected. Terminal raphe fissures are deflected to the primary valve side and are shaped like question marks. Striae number 16–20 per 10 μm and are strongly radiate near the central area, are parallel in the middle and convergent near the apices. Lineolae are easily visible in LM.
Habitat: river, pond and stream; Microhabitat: Epilithic, Epiphytic; Location: Guphunks, Spituk Leh, Puga, Ladakh
The valve is broadly linear and rounded at the ends. The length is 32–38 μm and the width is 9.0–9.7 μm. The central area is small and transversely elliptical, and the proximal ends of the raphe curve in opposite directions. The axial area is filiform and narrow. Striae number 14–15 per 10 μm and are distinctly punctate, throughout the valve they are slightly radiate to parallel and are slightly convergent at the apices.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
Remarks: This taxon morphologically resembles
Ref. Lange-Bertalot et al., 2017 (p. 423; pl. 54:14)
The valve is broadly linear with broadly rounded ends. The length is 45.8–53 μm, and the width is 9.4–9.6 μm. The central area is transversely circular, and the ends of the raphe curve in opposite directions. The axial area is distinct. Striae number 18–20 per10 μm and are distinctly punctate, and are parallel to slightly radiate throughout the valve. Punctae are easily visible in LM, 20 in 10 μm.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
Ref. Mann et al., 2004 (p. 477; pl. 4 m–o: 43–47)
The valve is linear, lanceolate, or elliptical with bluntly rounded apices. The length is 23.5–25.6 μm and the width is 6.8–7.5 μm. The central area has butterfly-shaped fascia that extend halfway to the valve. The axial area is narrow, linear and broadened at the centre. The raphe is filiform, straight or weakly undulate, with a dot-shaped central pore. Striae number 22–26 per 10 μm and are radiate, parallel towards the poles, and bilaterally delimited from the hyaline axial area by a more strongly defined line. Shortened striae flanking the central area can be alternately short or long.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumthang Hot Springs, Ladakh and Mughalpura, Srinagar-Leh Highway
The valve is broadly linear with parallel margins and rounded apices. The length is 28.2–31.2 μm and the width is 8.6–8.8 μm. The central area is orbicular. The axial area is narrow and is bordered on each side by a conopeum. The raphe is straight with slightly expanded proximal end. Striae number 14–16 per 10 μm and are curved radiate throughout the valve.
Habitat: pool and river; Microhabitat: Epiphytic and Epilithic; Location: Chumathang Hot Springs, Ladakh and Shey-Chuchot Road, Indus River.
Remarks: This taxon morphologically resembles
Ref. Kobayasi, 1997 (p. 148), Lange-Bertalot et al., 2017 (p. 89; pl. 23: 62–70); Monnier et al., 2007 (p. 145; pl. 148: 33–36); Potapova & Ponader, 2004 (p. 44; pl. 45: 72–80)
The valve is linear-elliptic, with rounded or slightly protracted apices. The raphe valve is concave; the axial area is linear-lanceolate. The length is 12.5–20.6 μm and the width is 4.1–4.2 μm. The Raphe is filiform and straight with proximal ends teardrop-shaped externally, and curved internally. Distal ends curved in same sides externally, and curved in opposite sides internally. The rapheless valve is convex with a narrow, linear axial area widening slightly in the central area of the valve. Striae number 20–22 per 10 μm and are parallel in both valves and slightly radiate near the apices.
Habitat: stream and river; Microhabitat: Epiphytic, Epibryophytic and Epilithic; Location: Chumathang Hot Springs, Ladakh; Naycho Resort, Hunder, Nubra Valley, Leh and Indus River, Leh
Ref. Round & Bukhtiyarova, 1996 (p. 349); Lange-Bertalot et al., 2017 (p. 90; pl. 24: 53–57); Kulikovskiy et al., 2016 (p. 228; pl. 35: 17–18); Hlúbiková, 2011 (p. 33; pl. 24: 118–147)
The valve is linear-elliptical, the ends are weakly drawn out and are broadly rounded. The length is 10.6–13.7 μm, and the width is 2.8–3.1 μm. The central area in the raphe valve is transversely broadened with fascia that do not reach the margin, whereas in the raphe-less valve it is absent or indistinct. The axial area is narrowly to more broadly lanceolate. Striae number 28–30 per 10 μm, and are weakly radiate towards the ends.
Habitat: stream, pool, lake and river; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs, Ladakh; Naycho Resort, Hunder; Nubra Valley, Leh; Tso Moriri Lake, Mathoo Road, Husainiya Chuchot Gongma
Ref. Lange-Bertalot et al., 2017 (p. 84; pl. 23: 31–36); Taylor et al., 2014 (p. 45; pl. 45: 2–54); Kulikovskiy M. et al., 2020
The valve is elliptical to linear-elliptical with protracted rostrate apices. Both the raphe and the rapheless valve have a narrow and slightly sigmoid axial area; the raphe valve has fascia and the rapheless valve has a small, transapically rectangular, often asymmetric central area. The length is 17.4–19.5 μm, and the width is 6.7–7.4 μm. The raphe is straight but deflected to opposite sides near the apices. Striae number 18–20 per 10 μm and are slightly radiate on both valves, but are almost parallel at the apices.
Habitat: stream; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
Remarks: This diatom species was exclusively found only in the Hot springs samples collected from Chumthang Hot Springs.
Ref. Ehrenberg, 1849 (p. 301; pl. 5: 44); Lange-Bertalot et al., 2017 (p. 138; pl. 20: 8, 9); Kulikovskiy et al., 2016 (p. 246; pl. 31:1–9)
The valve is elliptic to linear-elliptic. The raphe valve has a narrow axial area and an elliptical to circular central area. The length is 21.2–25 μm and the width is 14.1–16.8 μm. The raphe is straight and filiform. The distal raphe ends are straight and expanded externally. The proximal raphe ends are straight externally and slightly expanded. Striae number 20–21 per 10 μm, are parallel and straight in the centre and radiate towards the apices. The areolae are visible under LM.
Habitat: stream, river; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs, Ladakh; Indus River, Leh; Shey-Chuchot Road, Indus River; Stakna Bridge, Indus River
Ref. Lange-Bertalot et al., 1993 (p. 1–164, pl. 39; 8, pl. 40; 1–4); Lange-Bertalot et al., 2017 (p. 104; pl. 103: 6–10)
The valve is broadly lanceolate with rounded apices. The valve length is 15.6–26.2 μm, width 8.1–10.0 μm. The axial area is narrow and linear. The central area is small and irregular with 2–3 shortened striae on each side. The raphe is straight, with slightly enlarged proximal raphe ends. The striae are radiate, numbering 11–14 per 10 μm. The areolae in the central region are transversely elongate.
Habitat: river; Microhabitat: Epiphytic; Location: Hunder, Nubra Valley.
132-135.
Ref. Bukhtiyarova & Round 1996 (p. 9; 26–31); Lange-Bertalot et al., 2017 (p. 520; pl. 27: 14–18); Kulikovskiy et al. 2016 (p. 239; pl. 35: 35–39), Manoylov et al., 2007 (p. 318–320; pl. 319: 1–10)
The valve is broadly elliptical and both ends broadly rounded. The length is 10.2–20.6 μm and the width is 5.4–9.3 μm. The central area is transversely elliptical or rectangular with shortened striae. The axial area is narrow. The raphe is filiform and straight. The rapheless valve central area and axial area is narrow and rarely wider. Striae number 20–28 per 10 μm and are radiate throughout the valve.
Habitat: stream; Microhabitat: Epilithic and Epiphytic; Location: Tso Moriri Lake, Ladakh and Puga
Ref. Agardh, 1831 (p. 34); Lange-Bertalot et al., 2017 (p. 311; pl. 824: 28–32); Kociolek, J. P. & Kingston, J. C., 1999 (p. 698; 699: 78–90)
The valve is broadly wedge-shaped or club-shaped to lanceolate with a strongly narrowed foot pole and broadly rounded head pole. The length is 16.5–25.6 μm and the width is 4.8–5 μm. The central area is very small, and the axial area is narrow. The stigma present in the centre is large and distinct. The raphe weakly curved in larger specimens. Striae number 12–15 per 10 μm and are radiate throughout the valve.
Habitat: lake; Microhabitat: Epiphytic; Location: Tso Moriri Lake, Ladakh.
Ref. Kutzing, 1849 (p. 65); Lange-Bertalot et al., 2017 (p. 315; pl. 830: 1–5); Kulikovskiy et al., 2016 (p. 213; pl. 128: 12–17); Levkov et al., 2016b (p. 98; pl. 348: 1–19)
The valve is lanceolate; the ends are rostrate to sub-capitate and slightly deflected. The length is 18–26.2 μm and the width is 5.6–6.4 μm. The central area is asymmetrical, with a single long stria on one side. One distinct stigma is present. The axial area is narrow and straight. The raphe is straight and slightly undulate with slightly expanded proximal ends, with a polar node visible at each pole before the apices, and an indistinct terminal impression. Striae number 12–16 per 10 μm. Striae are more or less parallel throughout the valve and are slightly radiate towards the foot pole; striae are more widely spaced at the centre of the valve. Areolae are not visible in LM.
Habitat: stream; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs, Ladakh; Indus River, Leh; Tiri Village, Puga, Shey-Chuchot Road.
Remarks: This diatom species was found mostly in hot springs samples collected near Chumathang.
Ref. You et al., 2013 (p. 6: 26–38)
The valve is weakly linear to elliptical-clavate and the ends are obtusely rounded. The length is 40.1–60.8 μm and the width is 7.5–11 μm. The central area is transversely rectangular and almost reaches the valve margins and has very short stria on each side. The axial area is narrow. The raphe branches are curved, but appear to be filiform. Striae number 7–10 per 10 μm and are radiate in the centre to parallel in the apices.
Habitat: river; Microhabitat: Epiphytic; Location: Hunder, Nubra Valley.
Remarks:
Ref. Kociolek et al., 2015 (p. 184 pl. 184: 47–54); Kulikovskiy et al., 2016 (p. 216; pl. 124: 62–65)
The valve is lanceolate-clavate with both ends capitate. The head pole is broader and more rostrate while the foot pole is narrow. The length is 30.7–36.8 μm and the width is 8.8–9.9 μm. The central area bears a single round stigma. The axial area is straight and narrow and expanded laterally with a stria of varying length on both sides, giving the impression of an X-shaped central area. The raphe is lateral and straight. Striae number 10–12 per 10 μm and are strongly radiate at the centre, parallel at both ends, and not clearly punctate. The apical pore fields are indistinct.
Habitat: stream, river; Microhabitat: Epilithic, Epiphytic; Location: Indus River, Leh; Chumathang, Puga, Ladakh
Ref. Rabenhorst, L. (1853) (1853: 61, pl. IX [9]: Fig. 1); Jahn, 2019 (p. 231 pl. 266: A–H, M-P); Tuji, 2005 (p. 97; pl. 15: 1–15)
The valve is clavate with broadly rounded headpole and narrow towards the foot pole. The length is 18.1–25.1 μm and the width is 6.0–7.5 μm. The axial area is moderately narrow to broadly linear. The central area is variable, transversely broad but not reaching up to the margins. Stigma is absent. The raphe is filiform and slightly wider, almost straight. Striae number 10–12 per 10 μm and are radiate, becoming parallel and even very weakly convergent close to the head pole.
Remarks:
Habitat: stream, pool; Microhabitat: Epiphytic, Epilithic; Location: Chumthang Hot Springs; Indus River, Leh; Tso Moriri Lake, Ladakh; Mathoo Road near Husainiya Chuchot Gongma, and Mughalpura, Srinagar-Leh Highway
Ref. Kociolek and Stoermer, 1987 (p. 457; 1–10), Levkov & Ector, 2010 (p. 482; pl. 474: 34–40); John, 2018 (p. 168; pl 478: G–H); Lange-Bertalot et al., 2017 (p. 533; pl. 91: 50–56)
The valve is dorsiventral and narrowly lanceolate with convex ventral and dorsal margins. The ventral margin is slightly inflated mid-valve. The ends are broadly rounded to sub-capitate. The valve length is 10.3–22 μm and the width is 3–5 μm. The axial area is very narrow and linear. The central area is wider on the ventral side, extending up to the ventral margin, whereas on the dorsal side one short central stria and an isolated stigma is present. the raphe branches linearly and are filiform to slightly lateral. The proximal raphe endings are indistinct and slightly ventrally bent, while the distal raphe endings are ventrally curved. Striae number 10–14 per 10 μm and are subparallel or slightly radiate throughout the valve. Areolae not discernible with LM.
Habitat: stream, lake; Microhabitat: Epibryophytic, Epilithic, Epiphytic; Location: Naycho Resort, Hunder, Nubra Valley, Leh; Indus River, Leh; Tso Moriri Lake, Ladakh; Puga
Ref. Kützing, 1844 (p. 107; pl. 5: 35, 39); Levkov, 2009 (p. 96; pl. 322:1–6); Lange-Bertalot et al., 2017 (p. 101; pl. 92: 1–5); Kulikovskiy et al., 2016 (p. 286; pl. 38: 1–10)
The valve is semi-elliptical with a smoothly arched dorsal margin and a straight or slightly concave ventral margin. The valve ends are obtusely rounded. The valve length is 40.0–59.0 μm and the width is 8.7–12.0 μm. The central area is interrupted by intercostal ribs on the dorsal side. Therefore, dorsal fascia are absent, but ventral fascia are present and extend to the valve margin. The axial area is narrow and curved. The raphe branches are double-curved at both ends displaced dorsally. Striae number 10–12 per 10 μm, are radiate throughout, and coarsely punctate. The central striae are dash-shaped and not punctate.
Habitat: stream; Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Schoeman & Archibald, 1986 (p. 429; 11–13, 30–34), Lange-Bertalot et al., 2017 (p. 98; pl. 93: 4–8); John, 2018 (p. 258; pl. 601: H–F), Levkov, 2009 (p. 49: pl. 47: 10–16)
The valve is semi-lanceolate to semi-elliptical with smoothly arched dorsal margin and a concave ventral margin. The length is 27.5–31.2 μm and the width is 6.8–7.5 μm. The axial area is narrow. The proximal raphe ends are dorsally inclined and the distal raphe ends are curved towards the dorsal side. Dorsal and ventral fascia are present. Striae number 12–14 per 10 μm, and the dorsal striae are almost parallel in the middle and radiate slightly towards the apices. The ventral striae radiate in the middle and are convergent towards the ends.
Habitat: pool, stream, river; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs Ladakh; Indus River, Leh; Shey-Chuchot Road.
Ref. Vishnjakov et al., 2015 (p. 326; pl. 329: f–j); Kulikovskiy et al., 2016 (p. 171; pl. 89: 5–11)
The valve is broad, cymbelloid and semi-elliptical. The apices are bluntly rounded and weakly protracted. The dorsal margin is strongly arched, and the ventral margin is slightly convex to nearly flat. The valve length is 45.1–63.8 μm and the width is 14–19 μm. The central area is oval or slightly rhombic. 2–5 ventral stigma and usually 4 stigmata are seen. The axial area is linear and wider than the raphe. The ends of the large valves are not protected but are truncated and widely rounded. Small valves have more or less clearly protracted ends. Striae number 8–10 per 10 μm, and the ventral striae are weakly radial. Areolae are distinct in LM.
Remarks: Previously, this species was known from Nepal and from the rivers Selenga, Olkha, Onot, Zun-Muren & Malie Tibeliti and Lake Baikal. This study marks that first time it has been reported in India.
Habitat: stream; Microhabitat: Epiphytic, Epilithic; Location: Chumthang Hot Springs, Ladakh; Indus River, Leh, Gya Village
Ref. Krammer, 2002 (p. 152, 174; pl. 179: 1–6, pl. 180; 1–8. pl. 181: 1–6, 8; pl. 182: 1–9), Kulikovskiy et al. 2016 (p. 170; pl. 99: 8–11), Barinova et al. 2014 (p. 25; pl. 26: 8).
The valve is slightly dorsiventral, whereas the dorsal margin is more strongly convex than the ventral margin and is weakly inflated at the centre. The ends are obtusely rounded and slightly protracted. The length is 52.5–53.7 μm, and the width is 12–13.5 μm. The central area is indistinct. The axial area is narrow to moderately broad. 4 small stigmata are present, slightly separated from the ventral striae. The raphe is on the median axis of the valve, and is slightly displaced ventrally. Striae number 8–10 per 10 μm and are weakly radiate, becoming parallel at the ends.
Habitat: pool, river; Microhabitat: Epiphytic; Location: Chumthang Hot Springs, Ladakh
Ref. Krammer, 2002 (p. 52, 63; pl. 33: 1–13, pl. 34: 1–7), Bahls and Luna, 2018 (Figs. 19–21)
The valve is asymmetrical to the apical axis. The dorsal margin is strongly convex; the ventral margin is slightly concave, with slightly median inflation. The apices are broadly rounded. The length is 35.5–56.8 μm and the width is 10–12.1 μm. The central area is not distinctly differentiated from the axial area; the axial area is narrow. The strongly lateral raphe becomes filiform near the distal ends and reverse-lateral near the proximal ends. There are no isolated stigmata in the centre. Striae number 8–9 per 10 μm and are radiate throughout the valve.
Habitat: lake, river; Microhabitat: Epiphytic, Epilithic; Location: Tso Kar Lake, Leh; Hunder, Nubra Valley; Shey-Chuchot Road, Indus River; Mathoo Road near Husainiya Chuchot Gongma; Stakna Bridge
Ref. Round et al., 1990 (p. 667); Krammer, 1997a. (p. 75; pl. 4: 1–18, pl. 7: 1, 2, 6–19), Kulikovskiy et al., 2016 (p. 188; pl. 109: 1–5)
The valve is strongly dorsiventral and semi-lanceolate. The dorsal margin is strongly convex. The ventral margin is weakly concave. The ends are narrower to more widely rounded, and are not protracted. The length is 35.1–53.7 μm and the width is 11.2–12.5 μm. The axial area is narrow and is strongly displaced ventrally. The central area is vacant, with 1–2 stigma.
The raphe is filiform with dorsally curved central ends. Striae number 9–11 per 10 μm, are slightly radiate and converge clearly only ventrally near the ends.
Habitat: stream, river; Microhabitat: Epilithic; Location: Gya Village; Stakna Bridge, Indus River
174-178.
Ref. Lange-Bertalot et al., 2017 (p. 209; pl. 89: 18–22). Kulikovskiy et al., 2016 (p. 188; pl. 110: 1–5)
The valve is strongly dorsiventral and semi-lanceolate; the dorsal margin is strongly convex, and the ventral margin is weakly concave with an inflated centre. The length is 21–25 μm and the width is 6.8–7.5 μm. The ends are short, capitate and inclined ventrally. The central area is vacant, and the axial area is narrow and linear. The raphe is filiform with dorsally curved central ends; terminal fissures are turned ventrally. Distinct isolated stigma is present in the central area. Striae number 14–15 per 10 μm and radiate throughout the valve.
Habitat: stream; Microhabitat: Epilithic, Epiphytic; Location: Indus River, Leh; Tiri Village; Tso Moriri Lake, Ladakh; Mughalpura, Srinagar-Leh Highway
Ref. Krammer, 1997 (p. 156, 152; pl. 182: 1–13, pl. 183: 10–12); Lange-Bertalot et al., 2017 (p. 211; pl. 91: 1–17); Kulikovskiy et al., 2016 (p. 193; pl. 111: 15–20)
The valve is slightly dorsiventral, lanceolate. Dorsal and ventral margin moderately convex. Ends narrow and subrostrate. The length is 46.2–66.8 μm and the width is 6.0–8.1 μm. The central area is vacant or with hints of shortened striae. The axial area is linear and very narrow. The raphe is slightly undulate, the central ends turn dorsal, and the terminal fissures are comma-shaped and are curved towards the ventral side. Striae number 16–20 per 10 μm and are slightly parallel and radiate.
Habitat: river; Microhabitat: Epiphytic; Location: Hunder, Nubra Valley
Ref. Krammer, 1997 (p. 91; pl. 143: 1, 4, 5, 8–26; pl. 146: 1–5); Lange-Bertalot et al., 2017 (p. 213; pl. 91: 35–17); Kulikovskiy et al., 2016 (p. 194; pl. 111: 38–40)
The valve is symmetrical to weakly dorsiventral, linear to linear-elliptical. The ends are narrowly capitate. The length is 14.3–18.7 μm and the width is 3.1–4.3 μm. The central area is variable, shortened by the central striae. The axial area is very narrow and linear without expansion towards the centre. The raphe is filiform. Striae number 22–26 per 10 μm and are weakly radiate throughout the valve.
Habitat: lake; Microhabitat: Epiphytic, Epilithic; Location: Tso Moriri Lake, Ladakh; Shey-Chuchot Road, Indus River; Husainiya Chuchot Gongma; Stakna Bridge, Indus River
Ref. Kutzing, 1844 (p. 34; pl. 5: 14); Vishnyakov et al., 2014 (p. 326; pl. 325: f–I); Lange-Bertalot et al., 2017 (p. 221; pl. 122: 1–4); Karthick et al., 2013 (p. 105; pl. 105: 1–5)
The valve is dorsiventral, tapering towards the ends. The ends are rounded to slightly capitate. The dorsal margin is strongly convex and the ventral margin is slightly concave. The length is 55–65 μm and the width is 9.9–12.1 μm. The raphe canal abuts the ventral margin at the distal ends of the valve and arches towards the dorsal margin in the valve centre. Striae number 10–12 per 10 μm and the costae are mostly 4 per 10 μm.
Habitat: river; Microhabitat: Epilithic and Epiphytic; Location: Indus River, Leh and Shey-Chuchot Road, Indus River
Ref. Kützing, 1844 (p. 35; pl. 5: 13); Vishnyakov et al., 2014 (p. 321; 6)
The valve is linear with a convex dorsal margin and a weakly concave ventral margin. The apices are narrow and truncate to capitate. The length is 50.6–65 μm, and the width is 9.8–11.2 μm. Raphe runs almost straight atop or closely above the ventral edge, dorsally in the centre, however without reaching the median line of the valve. Striae number 12–14 per 10 μm. The costae number 4 per 10 μm and are parallel to slightly radiate and are often irregularly arranged.
Habitat: river, Microhabitat: Epilithic; Location: Indus River, Leh
Ref. Kützing, 1844 (p. 33; pl. 5: a–c); Lange-Bertalot et al., 2017 (p. 220; pl. 123: 1–7); Karthick et al., 2013 (p. 104; pl. 104: 5); Patrick & Reimer, 1975 (p. 188; pl. 27: 4)
The valve is strongly to moderately-dorsiventral. The dorsal margin is usually strongly convex, and the ventral margin is moderately concave. The ends are more or less differentiated and capitate. The length is 35.2–35.6 μm and the width is 6.7–6.8 μm. The raphe is strongly curved, rising dorsally almost near the valve margin in the centre and reaching the apex of the drawn-out ends. Costae number 4 per 10 μm and striae number 12–14 per 10 μm and are radiate throughout the valve.
Habitat: river; Microhabitat: Epilithic and Epiphytic; Location: Indus River, Leh and Stakna Bridge
Ref. Müller, 1895 (p. 58; pl. 2), John, 2016 (p. 147; pl. 340: H, I)
The valve is strongly dorsiventral and is claw-like in shape. The dorsal margin is strongly convex with a slight but noticeable indentation in the middle. The ventral margin is more or less straight. The apices are bent ventrally, sometime slightly protracted and rounded ventrally deflected. The length is 41.2–43.1 μm and the width is 6–7.5 μm. The raphe canal follows the dorsal margin. The raphe is supported by fibulae. Striae number 14–16 per 10 μm, and the fibulae number 3–4 per 10 μm.
Habitat: lake; Microhabitat: Epiphytic; Location: Tso Kar Lake.
Ref. Van Heurck, 1885 (pl. 49: 5), Hamsher et al., 2014 (p. 353; pl. 354: A)
The valve is lanceolate to linear with convex to parallel sides with the raphe side often having a slight constriction and rounded acute apices. The length is 30–43 μm and the width is 6–7.1 μm. Striae are parallel in the centre to slightly convergent at the apices, but are evenly spaced throughout the valve. Striae number 20–22 per 10 μm. The canal raphe is eccentric with no obvious keel; fibulae number 3–4 per 10 μm, extending across the transapical axis.
Habitat: stream and pool; Microhabitat: Epiphytic; Location: Chumthang Hot Springs, Ladakh
Ref. Van de Vijver & Cocquyt, 2009 (p. 217–219; 56–74).
The valve is linear to lanceolate with convex to parallel margins and acutely rounded apices. The valve length is 42.0–75.0 μm and the width is 8.6–9 μm. The raphe is strongly displaced towards the margin. Fibulae number 3–4 per 10 μm, are fairly broad and parallel, extending across the transapical axis throughout the valve. A large, double-topped hump is present in the centre of each costa, covering almost half of the costa. The Striae are parallel and evenly spaced throughout the valve. Striae number 12–16 per 10 μm. The canal raphe is eccentric. Puncta are not visible in LM.
Habitat: stream and pool; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
203-205.
Ref. Witkowski et al., 2000 (p. 375; pl. 195: 3–5); Stenger-Kovács and Lengyel, 2015 (p. 120; pl. 56: 1–15)
The valve is slightly arcuate with one margin slightly convex and the other slightly concave. The concave margin recurves near the apices to form capitate apices. The length is 47.1–82.1 μm and the width is 6.1–7.6 μm. Striae number 16–22 per 10 μm, are almost parallel in the centre and converge near the apices. Fibulae number 7–8 per 10 μm, and those in the central part are more spaced than the others.
Habitat: stream and river; Microhabitat: Epiphytic and Epilithic; Location: Chumathang Hot Springs, Ladakh, and Husainiya Chuchot Gongma
Ref. Smith, 1856 (p. 89), Bey & Ector, 2013 (p. 1064; pl. 1065: 1–33), Bishop et al., 2017 (pl. 138: 27–30); Ivanov et al., 2006. (pl. 181: 5–7)
The valve is linear-lanceolate to lanceolate with rostrate to sub-capitate apices; the margins are parallel in the centre. The length is 37.8–49.4 μm and the width is 3.8–4.1 μm. The transapical striae are very delicate and difficult to resolve with LM. Fibulae number 11–12 per 10 μm, and the central ones are equidistantly spaced.
Habitat: pool, pond, river, stream; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs, Ladakh; Guphunks Spituk, Leh; Indus River; Tiri Village; Stakna Bridge
Ref. Cleve & Grunow, 1880 (p. 82); Lange-Bertalot et al., 2017 (p. 440; pl. 119: 26–31); Kulikovskiy et al., 2016 (p. 401; pl. 145: 22–25), Tuji, 2016 (pl. 21, 22: 1–6)
The valve is lanceolate, with acutely rounded apices. The length is 16.7–26.6 μm and the width is 4.5–5.5 μm. Striae number 18–19 per 10 μm and are distinctly punctate and parallel. Fibulae number 6–7 per 10 μm and continue in transapical partitions throughout the valve.
Habitat: stream, pool and lake; Microhabitat: Epiphytic, Epipsamic; Location: Chumathang Hot Springs, Ladakh; Tso Moriri Lake; Shey-Chuchot Road, Indus River
Ref. Grunow, 1862 (p. 579; pl. 28: 11); Lange-Bertalot et al., 2017 (p. 454; pl. 114: 10–15), Trobajo et al., 2011 (p. 85; pl. 85: 6); Bey & Ector, 2013 (p. 1072; pl. 1073: 1–28)
The valve is linear-lanceolate to linear, often elliptical. The ends are obtusely to broadly rounded, and are weakly drawn out in large specimens. The length is 19.3–31.3 μm and the width is 3.7–4 μm. Striae are not visible in LM. Fibulae number 11–13 per 10 μm, and the central ones are equidistantly spaced.
Habitat: pond; Microhabitat: Epiphytic; Location: Guphuks, Spituk, Leh.
Ref. Lange-Bertalot et al., 2017 (p. 446; pl. 114: 55–59)
The valve is linear to lanceolate with gentle tapering to a pointed or obtusely rounded end. The length is 19.3–35.4 μm and the width is 3.3–3.7 μm. Fibulae number 10–12 per 10 μm and are distinct and equidistant. Striae number 22–24 per 10 μm, are coarse, and appear distinctly punctate with LM.
Habitat: stream, pond; Microhabitat: Epiphytic and Epipsamic; Location: Chumthang Hot Springs, Ladakh; Guphunks, Spituk, Leh; Shey-Chuchot Road, Indus River
Remarks: This species is very similar to
Ref. Hlúbiková et al., 2009 (p. 751: a–p)
The valve shape is lanceolate with concave valve margins that can be briefly parallel in the largest specimens. The valve apices are slightly protracted sub-capitate to capitate. The length is 36.8–53.2 μm and the width is 4.9–5.7 μm. The raphe is positioned on a distinct raphe keel, continuous from pole to pole. Striae are not visible in LM. Fibulae number 12–14 per 10 μm.
Habitat: stream and river; Microhabitat: Epilithic and Epiphytic; Location: Tso Moriri Lake, Ladakh; Stakna Bridge, Indus River
Ref. Lange-Bertalot et al., 2017 (p. 453: pl. 113: 48–51)
The valve is linear to linear-lanceolate. The ends are tapered, sub-capitate. The length is 59.0–65.6 μm and the width is 3.4–4.1 μm. Striae are not visible in LM. Fibulae number 10–14 per 10 μm.
Habitat: pond, river, stream; Microhabitat: Epiphytic, Epilithic, Epipsammic; Location: Chumathang Hot Springs, Ladakh
Ref. Frenguelli, 1942 (p. 178; pl. 8: 12); Lange-Bertalot et al., 2017 (p. 598; pl. 106: 3–7); Bertolli et al. 2020 (p. 6; pl. 5: d–f); Abdel-Aal & Mofeed , 2015 (pl. 42; 1)
The valve is linear, cuneate at the poles, slightly concave in the middle. The apices are rostrate and weakly protracted. The length is 52.4–68.6 μm and the width is 7–7.5 μm. Striae number 17–18 per 10 μm. The impression of a hyaline area is created by a depression on the valve surface.
Habitat: stream, pool; Microhabitat: Epiphytic, Epilithic; Location: Chumathang Hot Springs, Ladakh; Tiri Village, Leh; Husainiya Chuchot Gongma.
Ref. Smith, 1853 (p. 37; pl. 10: 79); Kulikovskiy, M. et al., 2016 (p. 412; pl. 155: 2–4); Lange-Bertalot et al., 2017 (p. 154; pl. 127: 1–4); Lange-Bertalot & Krammer, 1987 (pl. 50: 2–3)
The valve is broadly linear with a central slight constriction and tapering to blunt ends. The length is 64.3–95.0 μm and the width is 14.0–19.0 μm. A canal raphe runs around the valve margin. Fibulae number 7–9 per 10 μm. The undulations of the valve face are transapical corrugations and occur throughout the valve.
Habitat: pool; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh.
Ref. Kützing, 1844 (p. 61; pl. 30: 52), Lange-Bertalot et al., 2017 (p. 582; pl. 133; 1–5); Kulikovskiy et al., 2016 (p. 414; pl. 164: 8–11); John, 2016 (p. 150; pl. 349: c)
The valve is linear, isobilateral and isopolar with cuneate apices. The length is 24.1–38.7 μm and the width is 7.2–8.1 μm. The central area is narrow and linear. Alar canals (marginal costae) number 7–8 per 10 μm, are parallel, and radiate towards the apices. The valve surface is finely striated.
Habitat: river, stream; Microhabitat: Epilithic, Epiphytic; Location: Indus River, Leh; Tiri Village, Leh, Stakna Bridge
Ref. Krammer, K., & Lange-Bertalot, H., 1987 (p. 82; pl. 84: 21–33); Lange-Bertalot et al., 2017 (p. 583; pl. 132: 11–21)
The larger of the valves are linear-ovate, whereas the smaller valves are ovate, and smallest valve is broadly elliptical to nearly round. The length is 15.6–25 μm and the width is 12–15.1 μm. In large forms, one end is rounded in cuneate fashion and the other is broadly rounded. In smaller forms, both ends are almost equally rounded. Striae density is 18–24 per 10 μm and costa are 6–7 per 10 μm.
Habitat: pool; Microhabitat: Epiphytic; Location: Chumathang Hot Springs, Ladakh
The present study is a preliminary investigation of the diatom assemblages from high-altitude water bodies and hot springs in Ladakh. This paper represents the commonly occurring diatom taxa that are observed in this region. Due to the lack of physiochemical parameters gathered at the time of collection, we predict the characteristics of the localities based on the autecology of the diatoms that are predominant in the samples.
Ladakh is a biome that offer a wide range of pristine environmental conditions, including glacial deposits, arid regions, dune fields, hot springs and saline lakes (Pandey et al. 2020). With such extremes at high altitudes, the diatom biodiversity is significantly high yet is not very well-studied. In the past, few studies were conducted on the diatoms of selected lakes and rivers in Ladakh and its adjoining region (Compère 1983, Kant & Gupta 1998, Kumar et al. 2012, and Phartiyal et al. 2020). The earliest record of diatoms from the high elevations of the Eastern Himalayas at altitudes of 2900–4200 amsl reported 51 species of diatoms. Among these, 30 taxa were new reports from India (Suxena et al. 1972). Over the years, with advancements in microscopic technology, researchers have expanded their explorations to investigate diatoms inhabiting rare habitats, including mountain lakes. Notably, the identification of diatom species has advanced to incorporate the use of electron microscopy. Recently, three lakes from high-altitude were studied for diatom diversity in the lake’s littoral area, where diatom assemblages were compared along the seasonal variations and different benthic substrata (Jüttner et al. 2021). The diatoms in high mountain streams of the Alps and the Himalayas are reported to be abundant at an altitude of 4,697 amsl (Cantonati et al. 2001). Hausburg Tarn, a glacial lake on Mount Kenya, reported 57 specific and infraspecific taxa, with
The commonly-occurring diatom species across samples from various sites in Ladakh are
The species
The study of diatom diversity from one of the highest mountain ranges in the Western Himalayas – Ladakh resulted in the identification of 74 diatom taxa. This study has documented the taxonomy, characteristics, and biodiversity of the commonly-occurring diatoms in the high-altitude rivers, streams, lakes, and hot springs of the Ladakh region. Focusing these different habitats in this region, we concluded that the common species of high-altitude hot springs habitats were