Mycologia, 96(4), 2004, pp. 911–916.
q 2004 by The Mycological Society of America, Lawrence, KS 66044-8897
Two new lignicolous species of Nitschkia from Argentina
served with 1% Aq. Congo Red, Janus Green, Melzer9s Reagent and 5% calcofluor (Romero and Minter 1988). Images were taken using bright field (BF), fluorescence (FL)
and phase contrast (PC) with a Zeiss Axiolab microscope.
The photographic plates were produced electronically with
Adobe Photoshop 7.0.
Marı́a Virginia Bianchinotti1
Laboratorio de Ficologı́a y Micologı́a, Departamento de
Biologı́a, Bioquı́mica y Farmacia, Universidad
Nacional del Sur, San Juan 670, 8000 Bahı́a Blanca,
Argentina
Abstract: Two species of Nitschkia are described
from bark and wood of a legume shrub, native to the
semiarid regions of Argentina. Nitschkia campylospora
is characterized by asci with a variable number of ascospores, mainly 16, and curved ascospores; hairy ascomata and large ascospores are two distinct features
of Nitschkia pilosa. The new species are compared
with most similar species. A key to Nitschkia species
is provided with the inclusion of comments on those
from Argentina and neighboring countries.
Key words: Munk pores, Nitschkiaceae, systematics
Nitschkia campylospora Bianchinotti sp. nov.
FIGS. 1–10
Ascomata superficialia, dense gregaria vel caespitosa, nigra, subglobosa, sicca cupulato collapsa, tuberculata minutissime rugulosis, tomento castaneo iridescenti preadita,
non-ostiolata. Asci clavati, multispori, (4–)16(–25) sporati.
Ascosporae allantoideae, curvata vel lunata, (8.5–)9.5–13 3
(1.5–)2–2.5 mm, hyalinae, laeves, uniseptatae, guttulatae, in
asci irregulariter dispositae. In ligno decorticato emortuis.
Specimens examined. ARGENTINA. BUENOS AIRES: Partido Coronel Rosales, Villa Maio, Ruta Provincial 229 km 9,
on decorticated wood of Geoffroea decorticans, 30 May 1990,
Bianchinotti 115 (HOLOTY PE: BBB); same locality and
substratum, 12 Oct 2002, Bianchinotti 171, 172 (BBB), 173
(ISOTY PE: F).
INTRODUCTION
Ascomata superficial on decorticated wood, gregarious, subglobose, cup-shaped when collapsing,
200–400 mm diam, non papillate, non ostiolate, surface minutely warted, black. Ascomata surrounded by
an iridescent light brown tomentum, composed of
undulating, richly branched, thick-walled, dark hyphae, 7–12 mm diam; subiculum more abundant in
immature ascomata. Peridium pseudoparenchymatous comprising two layers; external layer of large,
polyhedral, thick-walled, heavily pigmented, dark
brown cells possessing Munk pores. Inner layer comprising pale, thin-walled cells; cells surrounding the
interior of the locule tangentially compressed, with
acute ends. Quëllkorper short and dome-like. Asci
clavate, more than 100 mm long, unitunicate, thinwalled, evanescent, with (4–)16(–25) ascospores irregularly disposed in each ascus; apex simple. Ascospores allantoid, strongly curved, (8.5–)9.5–13 3
(1.5–)2–2.5 mm, hyaline, smooth, 1-septate, with two
large guttules in each cell.
Anamorph. None known.
Etymology. From Greek xampnloz: curved, referring to shape of ascospores.
During biodiversity studies on micromycetes growing
on bark and decorticated wood of a native legume
shrub from Argentina, Geoffroea decorticans (Gill. ex
Hook & Arn.) Burk., two species belonging to Nitschkia G.H.Otth ex Karst. were found. Nitschkia is
characterized by turbinate ascomata that become cupulate upon collapse, a coriaceous peridium composed of brown, thick-walled, angular cells with
Munk pores, unitunicate evanescent asci lacking an
apical apparatus, and diverse ascospores, both in
number and form.
The two species differ from the hitherto published
species and here are described as new. A key to species of Nitschkia is provided. Some additional information on species from continental southern (semiarid and subtropical) South America is included.
MATERIALS AND METHODS
Ascomata were mounted in water, in 3% KOH, in 1% aqueous phloxine and in lactophenol. Ascomata were hand-sectioned with a razor blade. Measurements (at least 30 of each
character) were made of material in water. Asci were ob-
Nitschkia pilosa Bianchinotti sp. nov.
Accepted for publication January 23, 2004.
E-mail: vbianchi@criba.edu.ar
FIGS. 11–20
Ascomata superficialia, sparse gregaria, subglobosa vel
1
911
912
MYCOLOGIA
FIGS. 1–10. Nitschkia campylospora. 1. Ascomata on the substratum. 2. Longitudinal section through ascoma showing
Quëllkorper (arrow). 3. Detail of Quëllkorper zone. 4. Longitudinal section through ascomatal wall. 5, 6. Munk pores. Arrow
points to a typical pore surrounded by a ring-shaped thickening of the wall. 7. Cellular remnants among immature asci (PC).
8, 9. Mature asci with irregular number of ascospores. 10. Ascospores. Note the median septum (arrows). Scale bars: 1 5
100 mm, 2–3 5 25 mm, 4–6 5 10 mm, 7–9 5 20 mm, 10 5 10 mm.
turbinata, 125–380 mm diametro, sicca cupulato collapsa,
pilis hyalinis septatis ornata, fusco-atra vel atra. Asci oblongo
clavati, 75–120 3 15–35 mm, stipitati, apice simplici, ca 64spori. Ascosporae suballantoidea vel allantoidea, (6.5–)9.4–
11(–12) 3 (2.5–)3–4(–5) mm, hyalinae, laeves, uniseptatae.
In cortice Geoffroea decorticans (Hook. & Arn) Burk. Argentina.
Specimens examined. ARGENTINA. BUENOS AIRES: Partido Coronel Rosales, crossroads between Ruta Nacional 3
and Ruta Provincial 229, bark of Geoffroea decorticans, 22
May 1991, Bianchinotti 118 (HOLOTY PE: BBB); same collecting information, Bianchinotti 116, 117 (ISOTY PES: F);
Partido Bahı́a Blanca, Campo Tarantino, 388409S, 628189,
bark of Geoffroea decorticans, 1 Sep 1986, Bianchinotti 7, 50,
52 (BBB); same locality and substratum, 25 Dec 1986, Bianchinotti 109, 110 (BBB); 10 April 1987, Bianchinotti 86
(BBB); 7 Jul 1987, Bianchinotti 83, 96, 97, 98, 99 (BBB).
Ascomata superficial on inner bark, scattered to
gregarious, subglobose to turbinate, collabent on
drying, 125–380 mm diam, with a short papilla and a
well developed sterile base, non ostiolate, surface minutely warted, hairy, dark brown to black. Hairs subcylindric, septate, to 150 mm long, 4–10 mm at base,
BIANCHINOTTI: NITSCHKIA
SPP. FROM
ARGENTINA
913
FIGS. 11–20. Nitschkia pilosa. 11. Ascomata on the substratum. 12. Longitudinal section through ascoma. 13. Ascomatal
hairs. 14. Longitudinal section through ascomatal wall. Arrow indicates a Munk pore in the exterior wall. 15. Tangential
section through ascomatal wall showing Munk pores connecting cells (arrows). 16. Detail of Quëllkorper zone. 17. Immature
asci. Note cellular remnants among them. 18. Young and mature asci. 19. Detail of mature asci. 20. Mature ascospores stained
with Aq. Phloxine. Scale bars: 11 5 200 mm, 12 5 50 mm, 13 5 20 mm, 14–20 5 10 mm.
thick-walled, subhyaline to pale brown; thinner and
paler towards the acute or rounded ends, base cylindrical to subglobose. Peridium ca 30 mm wide except
up to 80 mm wide in the basal portion; composed of
two regions, external region composed of 5–7 layers
of large, 7–15 mm diam, polyhedral, thick-walled,
heavily pigmented, dark brown cells; cells paler and
thinner-walled toward the interior, organized in more
or less vertical rows in the basal portion, with simple
Munk pores. Internal region composed of 3–4 layers
of thin-walled, hyaline, tangentially compressed cells
with acute ends, 2–3 mm wide. Quëllkorper short and
dome-like. Asci oblong to clavate, 75–120 3 15–35
mm, unitunicate, thin-walled, evanescent, 64-spored,
apex simple lacking any visible apparatus. Ascospores
suballantoid to allantoid, (6.5–)9.5–11(–12) 3
(2.5–)3–4(–5) mm, hyaline, smooth, 1-septate.
Etymology. From Latin pilus (hair), referring to
those that cover the ascomata.
Anamorph. None known.
DISCUSSION
Several researchers (Fitzpatrick 1923, 1924, Nannfeldt 1975a, b, Sivanesan 1974, Subramanian and Sekar 1990) have studied members of Nitschkiaceae. A
close relationship between this family and Lasiosphaeriaceae has been postulated several times (Arx
1981, Barr 1990, Carroll and Munk 1964, Sivanesan
1974, 1975, 1978). The number of genera in the fam-
914
MYCOLOGIA
ily and the criteria for their separation greatly vary,
but the broader generic concept adopted by Nannfeldt (1975b) is preferred until molecular studies allow more accurate decisions.
Most Nitschkia species are saprobic on branches or
decorticated wood, and a few are hyperparasitic on
fungi. Typically their small nonostiolate ascomata
look like sessile apothecia when dry, and are commonly surrounded by a subiculum. The tomentum
in N. campylospora is typical of the genus, but ascomatal hairs as those found in N. pilosa have not been
reported. These hairs are similar to those described
in some species of Lasiosphaeria Ces. & De Not. (e.g.,
L. strigosa [Albert. & Schw. ] Sacc. and L. stuppea
Ellis. & Ev., as illustrated by Seaver 1912) and resemble those described in Nitschkiopsis Nann. & R.Sant.,
a lichenicolous member of Nitschkiaceae (Nannfeldt
1975b).
The ascomatal peridium is pseudoparenchymatous, composed of two distinct layers. One striking
feature is the presence of Munk pores in the cells of
the outer layer. Typically one per cell, they are ca 1
mm diam and surrounded by a ring-shaped thickening of the wall. They are not always obvious, and their
number varies depending upon the species and developmental stage (Nannfeldt 1975b). In N. campylospora, the conspicuous pores are typical of the genus and two per cell frequently can be observed. In
N. pilosa, ascomata of different ages show pores that
are simpler, appearing merely as circular thinning of
the wall. One or more pores could be observed both
in the common wall between adjacent cells and in
the exterior wall as well. They resemble the simple
pores described in Lasiobertia Sivan., a genus similar
to Oxydothis Penz. & Sacc., with a rather uncertain
taxonomic position in the opinion of Eriksson and
Santesson (1986), that was considered a member of
the Lasiosphaeriaceae by Barr (1990) and later transferred to the Hyponectriaceae by Hyde (1993).
Peridial pores were considered for a long time
unique to members of ‘‘Coronophorales ’’, but Cannon (1995) clearly showed that they are more widespread among ascomycetes than previously thought.
A few more examples can be added to those mentioned by Cannon (1995)—Lasiobertia africana Sivan., Lasiosphaeriella dennisii Sivan. (Sivanesan 1975),
Lasiosphaeriopsis salisbur yi D. Hawksw. & Sivan.
(Hawksworth 1980), L. stereocaulicola (Lindsay) O. E.
Erikss. & R. Sant. (Eriksson and Santesson 1986), and
Melanospora sphaerodermoides Grove (Shoemaker and
Smith 1970).
The function of Munk pores is unknown. A hypothetical explanation is that they could help in transporting moisture to the interior of the ascoma, which
is diminished by the heavily pigmented and thick-
ened walls, thus enhancing the discharge of ascospores from the entirely closed ascomata. Observations made after wetting ascomata of the two species
described here were similar to those reported by
Nannfeldt (1975b) for N. parasitans, in which spores
were extruded in a slimy mass from the top of ascomata that had been kept in a moist chamber. It is
thought that the cell mass known as Quëllkorper,
which may become swollen, plays an important role
in ascomata discharge. In addition, Vujanovic (2002)
recently has reported the important increase of
Quëllkorper cells size in water.
Asci in the two species described here are typical
of the family, being long claviform, unitunicate, thinwalled and evanescent. No evidence of any thickening or apical structures could be found in bright field
or phase contrast observations made with Congo
Red, Janus Green or fluorescence microscopy using
calcofluor. True paraphyses are lacking. Instead, cellular remnants corresponding to the ‘‘restes des cellules nourricières’’ described by Parguey-Leduc
(1966)) were observed among immature asci.
Asci in most Nitschkia species are octosporous;
rarely they are 4-spored and in a few they are polysporous. The mostly 16-spored asci of Nitschkia campylospora and the particular shape of the ascospores
distinguish it from other species. Although variation
in number of ascospores in asci of the same ascomata
has been reported previously in Nitschkia affinis
(H.& P. Syd.) Nannf. and in N. leonensis (Sivan.)
Nannf., the most frequently observed numbers of ascospores in both species are 32 and 25. The ascospores strongly resemble those of Acanthonitschkea
argentinensis Speg., which is characterized by dark
bristles on the subiculum and ascomata, 8-spored
asci, and smaller ascospores (6–8 3 2 mm) (Spegazzini 1908).
Asci in N. pilosa and N. molnarii Funk are both 64spored, but the latter has glabrous ascomata and
smaller ascospores (Funk 1979). In addition, ascospores of N. pilosa are much wider (up to 5 mm) than
those in all other polysporous species described to
date.
An unidentified stromatic coelomycete producing
hyaline microconidia in phialidic conidiogenous cells
occasionally was observed growing close to the ascomata of N. campylospora. Funk (1979) considered
a pycnidial fungus with Munk pores in the outer wall
cells to be the anamorphic state of N. molnarii. Vujanovic (2002) found similar pycnidia in the same
pustule as N. parasitans var. mijuskovicii Vujanovic.
This circumstantial evidence would suggest the pycnidial states belong in the respective life cycles. However, because no Nitschkia species has been grown in
BIANCHINOTTI: NITSCHKIA
pure culture, no correlation with any anamorphic
state can be established with certainty.
Although Nitschkia species are well known in some
regions of Europe and India, they have not been
widely collected and studied in other parts of the
world. Nannfeldt (1975b) predicted that a number
of undescribed species as well as others described in
the most unexpected genera reside in South Temperate Zones. More collectors and collaborative research is urgently needed to increase our knowledge
of these minute but extremely interesting fungi.
KEY TO NITSCHKIA SPECIES
1.
19.
2.
29.
3.
39.
4.
49.
5.
59.
6.
69.
7.
79.
8.
89.
9.
99.
10.
109.
11.
119.
12.
129.
Asci 4–8 spored . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Asci polysporous . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Asci 4-spored . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Asci 8-spored . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Ascospores fusiform, curved, hyaline to brown,
(25–)30 –40 3 5–6 mm . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . N. malabarica Subram. & Sekar
Ascospores fusiform, almost straight, hyaline to
gray, 15–22 3 2.5–3 mm . . . . . . . N. tetraspora Nannf.
Ascomata up to 0.3 mm diam. Hyperparasitic on
Nectria cinnabarina stomata . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . N. parasitans (Schw.) Nannf.
Ascomata more than 0.3 mm diam. Mostly saprobic
........................................ 5
Ascomata bearing spines (up to 20 mm long) . . . .
. . . . . . . . . . . . . . . . . . . N. brevispina (Munk) Nannf.
Ascomata without spines . . . . . . . . . . . . . . . . . . . . 6
Ascomata surrounded by a hyphal subiculum . . . . 7
Ascomata seated on a pseudoparenchymatous subiculum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Subiculum composed of dichotomously branched
hyphae . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Subiculum composed of irregularly branched hyphae . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Subicular hyphae with spiny endings . . . . . . . . .
. . . . . . . . . . . . . . . N. acanthostroma (Mont.) Nannf.
Considered a widespread species in subtropical regions, was first cited for South America as Scortechinia culcitella (Berk. & Rav.) Speg. (Spegazzini
1888). Recorded in Bolivia, Brazil and Paraguay.
Subicular hyphae with blunt endings . . . . . . . . . . 9
Ascospores ellipsoidal to subcylindrical, with terminal appendages, 19–30 3 4.5–7 mm . . . . . . .
. . . . . . . . . . N. chaetomioides (Penz. & Sacc.) Nannf.
Ascospores suballantoid to reniform, without appendages, 6–8 3 2–3 mm N. velutina (Petr.) Nannf.
Ascospores rough, ellipsoidal to ovoid, 7–9 3 4.5–
5.5 mm . . . . . . . . . . . . . N. uniseriata (Fitzp.) Nannf.
Ascospores smooth . . . . . . . . . . . . . . . . . . . . . . . . 11
Ascospores always hyaline . . . . . . . . . . . . . . . . . . 12
Ascospores colored with age . . . . . . . . . . . . . . . . 16
Ascospores fusiform . . . . . . . . . . . . . . . . . . . . . . . 13
Ascospores otherwise . . . . . . . . . . . . . . . . . . . . . . 14
SPP. FROM
ARGENTINA
915
13. Ascomata tuberculate, with large warts. Ascospores
6–9 3 1.5–2.5 mm . . . . . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . N. grevillii (Rehm in Starb.) Nannf.
139. Ascomata not tuberculate. Ascospores 7–11 3 2–3
mm . . . . . . . . . . . N. pezizoidea (Pat. & Gaill.) O.Kze
14. Ascospores ellipsoidal, 5–7 3 1.5–2 mm . . . . . .
. . . . . . . . . . . . . . . . . . . . N. calyculus (Mont.) O.Kze
149. Ascospores subcylindrical to cylindrical, larger . . 15
15. Ascospores 10 –18 3 2–2.5 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . N. cupularis (Fr. ex Fr.) Karst.
159. Ascospores 36– 45 3 12–14 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . N. gigantospora Nannf.
16. Ascospores septate, variously shaped . . . . . . . . . . 17
169. Ascospores aseptate, ovoid to ellipsoidal, subreniform, 7–11 3 3.5–5 mm . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . N. confertula (Schw.) Nannf.
17. Ascomata setose. Setae dark brown, to 150 mm
long. Ascospores ovoid, 13–18 3 4–6 mm . . . . .
. . . . . N. phaeospora W.H. Hsieh, C.Y. Chen & Sivan.
179. Ascomata glabrous . . . . . . . . . . . . . . . . . . . . . . . . 18
18. Ascospores broadly ellipsoidal . . . . . . . . . . . . . . . 19
189. Ascospores fusiform . . . . . . . . . . . . . . . . . . . . . . . 20
19. Ascospores 21–30 3 7–10 mm . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . N. thekkadyensis Subram. & Sekar
199. Ascospores 28–38 3 13–18 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . N. pulneyensis Subram. & Sekar
20. Ascospores 12–18 3 3.5–7 mm . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . N. collapsa (Rom.) Chentantais
209. Ascospores longer . . . . . . . . . . . . . . . . . . . . . . . . 21
21. Ascospores 26– 40 3 3– 4 mm . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . N. silentvalleyensis Subram. & Sekar
219. Ascospores 35– 45 3 4.5–6 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . N. sundara Subram. & Sekar
22. Ascospores 15–20 3 3– 4.5 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . N. floridana Fitzp.
A North American species recorded in Brazil by
Rick as Bertia submoriformis (fide Nannfeldt
1975b).
229. Ascospores 26– 45 3 6–6.5 mm . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . N. macrospora Teng
23. More than 200 spores/asci . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . N. broomeiana (Berk.) Nannf.
Argentina, Brazil. A cosmopolitan species, first cited for Argentina by Spegazzini (1880) as Fracchiaea
heterogenea Sacc., recorded more recently by Romero (1987) and Romero and Carmarán (1997).
239. Less than 200 spores/asci . . . . . . . . . . . . . . . . . . 24
24. Ascomata surrounded by a hyphal subiculum . . . 25
249. Subiculum pseudoparenchymatous or absent . . . 30
25. Subiculum composed of dichotomously branched
hyphae. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
259. Subiculum composed of irregularly branched hyphae . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
26. Ascospores reniform, often spiral, with terminal appendages, 6–9 3 3 mm . . . . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . . . N. similis (Bres.) Nannf.
269. Ascospores subreniform, allantoid to ovoid, without
appendages, 5–7 3 2–3 mm . . . . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . . . . N. leonensis (Sivan.) Nannf.
916
MYCOLOGIA
27. Asci (4–) 16 (–25) spored. Ascospores allantoid,
strongly curved, (8.5–)9.5–13 3 (1.5–)2–2.5 mm
1.
N. campylospora
279. Asci mostly 32-spored. Ascospores otherwise . . . . 28
28. Ascospores suballantoid, hyaline, 7–9 3 1.5 mm
N.
callista (Berk. & Curt.) Nannf.
289. Ascospores ovoid, fusiform to ellipsoidal, hyaline or
colored, wider . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
29. Ascospores ovoid, hyaline, 5–6 3 3 mm . . . . . . .
. . . . . . . . . . . . . . N. multiasca (Pat. & Gaill.) Nannf.
299. Ascospores ellipsoidal, fusiform or ovoid, hyaline
becoming light brown, 6–10 3 3– 4 mm . . . . . .
. . . . . . . . . . . . . . . . N. variabilis Romero & Samuels
Argentina. Described from decorticated wood of
Eucalyptus viminalis. Known only from type locality
(Romero and Samuels 1991).
30. Ascomata glabrous, seated on a pseudoparenchymatous subiculum . . . . . . . . . . . . . . . . . . . . . . . . 31
309. Ascomata hairy, subiculum absent. Ascospores suballantoid to allantoid, (6.5–) 9.5–11(–12) 3 (2.5–
)3–4(–5) mm . . . . . . . . . . . . . . . . . . . . . . 2. N. pilosa
31. Asci (25-) 32-spored. Ascospores subcylindrical to
ellipsoidal, 5.5–7 3 1–1.5 mm . . . . . . . . . . . . . .
. . . . . . . . . . . . . . . . . N. affinis (H. & P. Syd.) Nannf.
319. Asci 64-spored. Ascospores allantoid, 6–8 3 1.5–2
mm . . . . . . . . . . . . . . . . . . . . . . . . . N. molnarii Funk
Excluded: Nitschkia archeri (Berk.) Subram. & Sekar
and N. didyma (Speg.) Subramanian & Sekar. Type
material of both species were first examined by Fitzpatrick (1923) and then by Nannfeldt (1975b) who
considered them as belonging to Thaxteria Sacc. because of their large ostiolate ascomata, which not become characteristically cupulate, the asci with truncate tips with thickened walls and small rings and the
broadly subcylindrical, geniculate rather allantoid, 3septate, dark brown ascospores.
ACKNOWLEDGMENTS
This work was supported by grants from CONICET (PIP
949/98) and UNS (PGI 425/01). Dr Fernando Fernández
and Dr Freda Anderson are greatly acknowledged for reviewing the manuscript. Dr Andrea Romero is warmly
thanked for her valuable suggestions on N. pilosa. M.V. Sanchez Puerta, Dr Joanne E. Taylor, Dr Michael Vincent and
Dr Laura Lorenzo are thanked for providing some of the
cited papers. Lic. Marta Garelli is acknowledged for her
help with Latin diagnosis. MVB is researcher from the National Research Council from Argentina (CONICET).
LITERATURE CITED
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new family Vialaeaceae. Mycol Res 99:367–373.
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