Mycologia, 99(3), 2007, pp. 456-460. 
? 2007 by The Mycological Society of America, Lawrence, KS 66044-8897 
Megalohypha, a new genus in the Jahnulales from aquatic habitats in the tropics 
Astrid Ferrer1 
Department of Plant Biology, University of Illinois, 
Room 265 Morrill Hall, 505 South Goodwin Avenue, 
Urbana, Illinois 61801 
Somsak Sivichai 
BIOTEC-Mycology, National Center for Genetic 
Engineering and Biotechnology, 113 Thailand Science 
Park, Paholyothin Road, Klong 1, Klong Luang, 
Pathumthani, 12120 Thailand 
Carol A. Shearer 
Department of Plant Biology, University of Illinois, 
Room 265 Morrill Hall, 505 South Goodwin Avenue, 
Urbana, Illinois 61801 
Abstract: A new fungus collected from submerged 
wood in tropical forest streams in Panama and 
Thailand is described as a new genus and species in 
the Jahnulales. This fungus, Megalohypha aqua-dulces, 
is described based on ascospore morphology, which 
differs substantially from that of the other genera in 
the Jahnulales. It has these morphological features: 
ascomata hyaline, translucent, with subtending, wide, 
brown, septate, stoloniferous hyphae; peridium of 
large, thin-walled cells; hamathecium of septate 
pseudoparaphyses; asci clavate, fissitunicate, 8-spored; 
and ascospores Tseptate, brown, rough-walled, with 
longitudinal sulcate striations. An interesting feature 
of Megalohypha aqua-dulces, which it shares with some 
other taxa in Jahnulales, is the presence of both 
sessile and stalked fruiting bodies. In addition, the 
stalks have morphology that consists of a wide hypha 
with a narrower hypha apparently enclosed within 
and the stalks are strongly constricted at the septa. 
Key words:    euascomycetes,    freshwater,    fungal 
systematics,   submerged wood 
INTRODUCTION 
In our on-going inventory of freshwater filamentous 
euascomycetes, a new fungus with characteristics of 
the Jahnulales Pang, Abdel-Wahab, El-Sharouney, 
E.B.G. Jones & Sivichai was collected from streams 
in the tropical rain forests of Panama and from 
a stream in Thailand. The order Jahnulales was 
erected based on a well supported clade from 
molecular analyses and morphological characteristics 
Accepted for publication 27 March 2007. 
1
 Corresponding author. E-mail: aferrer@life.uiuc.edu 
(Pang et al 2002) that include stalked/sessile asco- 
mata, hyphal stalk cells that are ca. 40 ".m wide, and 2- 
celled ascospores with or without appendages or 
sheaths (Pang et al 2002). While our new fungus 
presents the diagnostic morphological characteristics 
of the Jahnulales (Pang et al 2002) it is distinctively 
different from other genera in this order. Therefore 
the fungus is described as a new genus and species in 
the Jahnulales. 
MATERIALS AND METHODS 
Samples of submerged, partially decomposed woody debris 
were collected from rivers and streams at Soberania 
National Park in lowland tropical forest in central Panama 
and Than Bok Khorani National Park in Thailand. Samples 
were placed in Ziploc? plastic bags containing paper towels 
and returned to the laboratory. Samples were incubated in 
the laboratory in plastic boxes containing moistened paper 
towels at ambient temperature (about 24 C) and examined 
with a dissecting microscope immediately after collection 
and periodically for 9 mo. 
Ascomata were placed on a cover glass on a microscope 
slide in a drop of distilled water and opened with dissecting 
needles to release asci and ascospores. Aqueous nigrosin or 
India ink was added to the water mounts to reveal 
appendages or gelatinous sheaths on the ascospores. 
Distilled water was replaced with glycerin for preservation 
using the double cover glass method (Volkmann-Kohlmeyer 
and Kohlmeyer 1996). Additional ascomata were fixed and 
sectioned with a modification of the technique outlined by 
Huhndorf (Huhndorf 1991, Fallah and Shearer 2001). 
Digital images were obtained with a Spot RT digital camera 
using an Olympus microscope equipped with Nomarski 
interference optics. Images were processed with Adobe 
Photoshop CS2 (Adobe Systems Inc., Mountain View, 
California). Specimens were deposited in the Herbarium 
of the University of Illinois at Urbana-Champaign (ILL) and 
the Herbarium of the University of Panama (PMA). 
Cultures were obtained and are maintained according to 
the procedures of Fallah and Shearer (2001) and are 
deposited in the University of Illinois Fungus Collection. 
Specimens collected and cultured in Thailand were de- 
posited at BIOTEC Bangkok Herbarium (BBH) and 
BIOTEC Culture Collection (BCC), respectively. 
TAXONOMY 
Megalohypha A. Ferrer et Shearer, gen. nov. 
Type species: Megalohypha aqua-dulces 
Etymology: From the Greek "megalo" = big, large 
and "hypha" = hyphae 
Ascomata superficialia, globosa vel obpyriformia, ostio- 
456 
FERRER ET AL: AQUATIC ASCOMYCETES 457 
FIGS. 1-6. Megalohypha aqua-dulces collected from wood (Holotype AF005-1). 1. Longitudinal section through ascoma. 2. 
Neck showing subglobose divergent cells. 3. Longitudinal section showing cells of peridium. 4. Hamathecium. 5-6. Asci. Bars: 
1 = 20 urn, 2-6 = 10 urn. 
458 MYCOLOGIA 
FIGS. 7-8.    Megalohypha aqua-dulces collected from wood (Holotype AF005-1). 7. Ascospores. 8. Ascospore, arrow indicates 
sulcate striations. Bars: 7-8 =10 |xm. 
lata, papillata, habentes vel sine stipite, ad substratum 
connexi per hyphas latas, brunneas, septa tas, stoloniformes. 
Paries peridii cellularis magnis, hyalinis, tenuitunicatis. 
Hamathecium pseudoparaphysibus. Asci fissitunicati, cla- 
vati, brevipedicellati, octospori. Ascosporae brunneae vel 
fuscae, uniseptatae, symmetricae, tunicatae asperae, striis 
longitudinalis. 
Ascomata superficial on wood, globose to obpyri- 
form, ostiolate, papillate, stalked or sessile, connected 
to the substratum by broad, brown, septate, stolonif- 
erous hyphae. Peridial wall of large, hyaline, thin- 
walled cells. Hamathecium pseudoparaphysate, pseu- 
doparaphyses septate, branched, anastomosing above 
the asci. Asci fissitunicate, broadly clavate or fusiform, 
short pedicellate, 8-spored. Ascospores brown to dark 
brown, 1-septate, symmetrical, rough-walled, longitu- 
dinally striate. 
Megalohypha aqua-dulces A. Ferrer et Shearer, sp. 
nov. FIGS. 1-14 
Ascomata 240-300 X 200-250 (im, superficial, globosa 
vel obpyriformia, ostiolata, papillata, hyalina, membrana- 
cea, habentes vel sine stipite, ad substratum connexi per 
hyphas superficiales, latas, brunneas, septatas, stoloni- 
formes. Papillae 55 X 45 |xm, breve, cylindraceum, peri- 
physibus hyalinis. Paries rostri e cellulis divergentibus 
extrinsecus, globosis, tenuitunicatis compositum. Peridium 
circa 15 jim crassum, sectione longitudinal! e cellulis 1-2 
stratis hyalinis, tenuitunicatis compositum. Pseudopara- 
physes, 3-4 um latae, filamentosae, septatae, hyalinae. Asci 
110-160 X 35-60 |xm, fissitunicati, clavati, brevipedicellati, 
octospori. Ascosporae 40-55 X 19-22 urn, dispositae irre- 
gulariter, ellipsoideae, apicibus acutis, brunneae vel fuscae, 
uniseptatae, utraque cellula spatii aequi, tunicatae asperae, 
stria sulcata longitudinal!, exappendiculatae. 
Ascomata on wood 240-300 X 200-250 um, super- 
ficial, globose to obpyriform, ostiolate, papillate, 
hyaline, membranous, connected to substrate by 
a brown, septate stalk strongly constricted at the septa, 
20-25 wide and up to 450 um long; sessile ascomata 
connected to the substrate by superficial, wide, brown, 
septate, stoloniferous hyphae (FIG. 1). Papillae 55 X 
45 um, short, cylindrical, with inwardly growing, 
hyaline periphyses; wall of the papilla composed of 
outwardly diverging globose, thin walled cells (FIG. 2). 
Peridium about 15 um thick, in longitudinal section 
composed of 1-2 layers of hyaline, thin-walled cells 
(FIG. 3). Pseudoparaphyses 3-4 um wide, filamentous, 
septate, hyaline, branched and anastomosing above 
the asci (FIG. 4). Asci 110-160 X 35-60 um, fissituni- 
cate, clavate or ellipsoid, short pedicellate, with or 
without an apical chamber, 8-spored (FIGS. 5, 6). 
Ascospores 40-55 X 19-22 um (mean = 48.3 X 
18.8 um, SD = 2.8 X 0.91 um, n = 30), irregularly 
arranged, ellipsoidal, acutely tapered at apices, brown 
to dark brown, 1-septate, septum appearing as a dark 
band, both cells of equal shape and size, rough walled 
(FIG. 7) with longitudinal sulcate striations (FIG. 8) 
lacking appendages or a gelatinous sheath. 
Colonies on potato-dextrose agar (PDA; Difco) 
effuse, with little aerial mycelium, slow growing, 
reaching 1.2 cm diam in 4 wk, dark brown and 
producing a pale yellow pigmentation of the sur- 
rounding agar. Hyphae brown, smooth, strongly 
constricted at the septa, 25-40 um wide (FIG. 9). No 
anamorph was observed. Stalked and sessile ascomata 
formed on PDA slants after 1 mo incubation at 24 C. 
Ascomatal stalks of wide septate hyphae strongly 
constricted at the septa with a narrower hypha 
contained within (FIGS. 10, 11). Asci and ascospores 
were formed; asci were equipped with an apical 
chamber (FIG. 12) and ascospores were a lighter 
brown color (FlG. 14) than those formed on natural 
substrates; wider pseudoparaphyses (4-9 um) were 
observed (FIG. 13) in ascomata formed in culture 
than in those formed on natural substrates. 
FERRER ET AL: AQUATIC ASCOMYCETES 459 
11 I 12 13 
k ? 
FIGS. 9-14.    Megalohypha aqua-dukes grown in culture (AF005-2). 9. Mycelium. 10. Sessile ascomata. 11. Stalked ascomata. 
12. Asci. 13. Hamathecium. 14. Ascospores. Bars: 9, 12, 13 and 14 = 10 nm; 10 = 20 nm; 10 = 20 nm; 11 = 50 (im. 
460 MYCOLOGIA 
Specimens examined. PANAMA. COLON PROVINCE: 
Soberania National Park, Juan Grande River, 9?8'N, 
79?43'W, 12 Jan 2003 on submerged decorticated wood, 
A. Ferrer, AF005-1. (ILL). HOLOTYPE. 
Additional specimens examined. PANAMA. COLON 
PROVINCE: Soberania National Park, Frijoles River, 
9?8'N, 79?43'W, on submerged decorticated wood, 12 May 
2003. A. Ferrer, AF005-2. THAILAND. KRABI PROVINCE: 
Than Bok Khorani National Park, Stream at Nature Trail, 
8?23.6'N, 98?44.1'E, on submerged wood, 26 Jan 2006. S. 
Sivichai, SS3792. 
Known distribution. PANAMA (COLON), THAILAND 
(KRABI) 
Etymology. Aqua-dulces {aqua = water, dukes = 
sweet) in reference to its freshwater habitat. 
DISCUSSION 
Characteristics of this newly discovered fungus place it 
within the order Jahnulales. We have established 
a new genus for this fungus, Megalohypha, based on 
morphological differences with the existing genera in 
the Jahnulales, Aliquandostipite, Jahnula, and Pates- 
cospora. In addition molecular studies provide strong 
support for the placement of M. aqua-dulces on 
a single clade within the Jahnulales separate from the 
clades containing Aliquandostipite, Jahnula and Pa- 
tescospora (Campbell J, Ferrer A, Raja HA, Sivichai S, 
Shearer CA unpublished data). 
Megalohypha differs from all genera currently 
included in the Jahnulales in having vegetative 
hyphae and ascomatal stalks that are strongly con- 
stricted at the septa (FiGS. 9, 11). In addition the 
ascospores have bipolar symmetry, acute as opposed 
to rounded apices, a dark band at the midseptum 
(FiGS. 7, 8, 14) and sulcate striations on the ascospore 
wall (FiGS. 8, 14). In addition mature ascomata of 
Jahnula species are more strongly pigmented brown 
and have a thicker peridium than those of Mega- 
lohypha. Ascomata of Megalohypha however resemble 
those of Aliquandostipite in gross morphology, but 
ascospores of Aliquandostipite are more elongated in 
outline, lighter (hyaline to pale brown), the upper 
cell is slightly larger than the lower cell, are 
surrounded by a large gelatinous sheath (Inderbitzin 
et al 2001, Raja et al 2005) and do not have sulcate 
wall striations. 
A unique characteristic among the Jahnulales is the 
presence of narrower hyphae enclosed within the 
hyphal stalk cells and vegetative hyphae that are the 
largest (10-40 |xm wide) observed in the euascomy- 
cetes (Hyde and Wong 1999, Inderbitzin et al 2001, 
Pang et al 2002). Pang et al (2002) suggested that the 
wide vegetative hyphae might be an apomorphic 
character in the Jahnulales. The function of the wide 
vegetative hyphae is not yet understood, but because 
all species in the Jahnulales have been described from 
aquatic or wet habitats it might reflect an adaptation 
in this group to such habitats. Raja and Shearer 
(2006) and Vijaykrishna et al (2006) proposed that 
the broad, stoloniferous hyphae might play an 
important role in colonization and holding fungi 
onto softened wood in aquatic habitats. 
Species in the order Jahnulales may play a role in 
decomposing organic matter in aquatic habitats; 
a recent study (Simonis J, Raja HA, Shearer CA 
unpublished data) shows that Megalohypha aqua- 
dulces can produce soft rot cavities in balsa wood. 
ACKNOWLEDGMENTS 
We thank Huzefa Raja and Jim 0ailing for reviewing the 
manuscript before submission. We appreciate the Smithso- 
nian Tropical Research Institute (STRI) for its logistic 
support in Panamanian collection forays. Financial support 
by the National Science Foundation (NSF Grant No. DEB 
0316496) is gratefully acknowledged. Biodiversity Research 
and Training Programme (BRT Thailand) with co-financing 
by the National Center for Genetic Engineering and 
Biotechnology (BIOTEC) and the Thailand Research Fund 
(TRF) grant No. BRT-145006 are thanked for supporting 
freshwater fungal research in Thailand. 
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