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Saffron is one of the most expensive spices worldwide and it is obtained from the flower stigmas of Crocus sativus L., which belongs to the family of Iridaceae and to the genus Crocus, which includes about 90 species distributed mainly in the Mediterranean and southwestern Asia (Fernández et al., 2011; Dar et al., 2017). The world’s total annual saffron production is estimated at 205 tons, and over 80% of this harvest originates from Iran (Mahdikhani and Alvani, 2013; Kafi et al., 2018). Outside Europe, saffron is cultivated mainly in Kashmir, China, Afghanistan, Azerbaijan, Turkey and Morocco. Europe has always played a significant role in the international production and commercialization of saffron with Spain, Greece and Italy being the main producers of this spice (Kafi et al., 2018). The most extensive cultures of saffron in Italy are located in Abruzzo, Sardinia and Tuscany, where there is growing interest about guaranteeing and defending the quality of this product with Protected Designations of Origin (Cusano et al., 2018).
Particularly in the last century, saffron cultivation areas and production amounts have decreased worldwide, largely due to the manual harvesting of stigmas, high production costs and low yields of the spice. In fact, 450,000 hand-picked delicate red strands from 150,000 flowers are required to obtain 1 kg of saffron (Grilli-Caiola and Canini, 2010; Kafi et al., 2018).
In this study, Bursaphelenchus fungivorus (Franklin and Hooper, 1962) is reported for the first time in Italy, and, in particular, associated with C. sativus corms. Morphometrical and molecular characterization of the nematode is given. In addition, a review of nematodes associated with plants of C. sativus worldwide is provided.
Material and methods
Collecting corms and nematodes extraction
In September 2018, 20 corms of Crocus sativus were collected by the Plant Protection Service of Lazio Region on the farm “Arte Zafferano” located in Terracina (Latina, Lazio, Central Italy), in the karst area of Campo Soriano. The farm is characterized by labyrinths of calcareous rocks, dotted by small drained plots where saffron is cultivated. This survey was conducted to certify that these plants were free of plant-parasitic nematodes, such as Ditylenchus destructor (Thorne, 1945) and Ditylenchus dipsaci (Kühn, 1857; Filipjev, 1936), for their exportation of the corms to Guatemala (Central America).
Corms were put in polyethylene bags and then brought to the laboratory of Nematology at CREA-DC in Florence (Italy). These materials were kept in the refrigerator at about +4°C until they were processed for analysis. A mat of parallel fibers that shroud the corms (corm tunic) was removed and the naked corms were washed with sterilized water and then cut into 2 mm slices. Then the two materials were separately processed using the modified Baermann funnel method (Schindler, 1961). Isolated nematodes were observed with a dissection microscope to determine their presence and then under a light microscope for morphological identification at the genus or species level.
Specimens of Bursaphelenchus (Fuchs, 1937) were transferred to a 9 cm diameter Petri dish with 2% malt extract agar and Botrytis cinerea lawn in order to obtain a culture. After a two week incubation at 26°C, nematodes were collected for morphobiometrical and molecular studies.
Morphological identification
Bursaphelenchus specimens were collected from the Petri dish, washed in sterilized water and heat-killed in warm water at 65°C; then they were fixed in triethanol-amine-formalin (Courtney et al., 1955), processed in glycerin by a modification of the glycerin-ethanol series of Seinhorst (1959) rapid method and finally, permanently mounted in anhydrous glycerin on glass microscope slides.
In total, 10 females and 10 males were photographed and measured. Photographs were taken with a Leica DM2000 light microscope using a Leica MC170 HD digital camera (Leica, Heerbrugg, Switzerland). Measurements were performed with the LEICA Application Suite (LAS) Version 4.9.0. Morphological and molecular characteristics were compared with the original description (Franklin and Hooper, 1962).
Molecular analysis
Two specimens of nematodes were individually put in 0.2 ml tube containing 50.0 µl InstaGene Matrix (BioRad), 1.5% SDS and 2.5 µl Proteinase K 20.0 µg/µl. The samples were incubated at 55.0°C for 3 hr, Proteinase K was inactivated by heating at 96.0°C for 10 min and DNA was recovered with alcoholic precipitation adding 100.0 µl of cold absolute ethanol. Pellets were air-dried and resuspended in 20.0 µl of double distilled water. The amplification of Internal Transcribed Spacer locus (ITS) was performed using conditions described in Burgermeister et al. (2005). The PCR products were sequenced at the Centro di Servizi per le Biotecnologie di Interesse Agrario Chimico e Industriale, University of Florence, Italy. Species identification was obtained through two phylogenetic trees (obtained with Neighbor Joining and Maximum likelihood algorithms) based on ITS locus and focused on fungivorous-group starting from sequences of this locus mined from GeneBank (Table 1). Alignments were computed with a local alignment algorithm (implemented in Kalign at EBI website) and the poorly aligned regions were removed with Gblocks v. 9.1b. The choice of appropriate substitution matrix for the data set was evaluated using Jmodeltest2 v. 2.1.10 considering AICc, BI criteria and DT method. Trees were computed using MEGA 7 software, choosing GTR +G +I as nucleotide substitution matrix and 1,000 bootstrap replicates.
Species list and sequences used in this work annotated with their GeneBank Accession numbers.
Bursaphelenchus species
Strain, isolate or clone
GeneBank Accession
B. arthuri
Ne19/04
AM157742
B. arthuri
–
EU783918
B. arthuroides
32468
HQ599189
B. braaschae
14190
GQ845407
B. cocophilus
S5
KT156782
B. cocophilus
S8
KT156783
B. fungivorus
BfungPt1 Clone 1
KF241745
B. fungivorus
BfungPt1 Clone 2
KF241746
B. fungivorus
BfungPt1 Clone 3
KF241747
B. fungivorus
GD
HQ402559
B. fungivorus
GT2018
MK372853
B. fungivorus
Ne 26/96
AM179516
B. parathailandae
00349
JN377723
B. thailandae
HK
DQ497183
B. thailandae
Ne7b/03
AM157746
B. thailandae
RCA
KP644768
B. thailandae
UN
KP644769
B. willibaldi
Ne 16/05
AM180512
Results
Morphological identification
No specimens belonging to the Ditylenchus genus were isolated from these samples, while some nematodes belonging to the Bursaphelenchus genus were extracted, but only from naked corms. Specimens presented the main morphological characteristics of Bursaphelenchus fungivorus: four lateral incisures, cephalic region offset by a constriction, stylet with weakly developed basal knobs; well-developed median bulb. Females present elongated conical tail with a rounded tip and ventrally bent. Vulva is without a flap in lateral and ventral views; both anterior and posterior vulval lips slightly protruding. In the males, tails are ventrally curved with compact spicules without cucullus (Fig. 1). The morphology of the Italian population of B. fungivorus (Table 2) agrees with the original description and with this species found in other countries (Braasch, 2001; Arias et al., 2005; Fonseca et al., 2014).
Morphometrics of Bursaphelenchus fungivorus.
Character
Male
Female
n
10
10
L
686.7 ± 31.9
735.28 ± 38.4
(645.2 – 742.0)
(700.0 – 834.8)
a
28.3 ± 1.9
26.5 ± 2.0
(25.3 – 30.9)
(23.3 – 30.3)
b
10.2 ± 0.8
10.5 ± 0.5
(9.2 – 11.8)
(10.1 – 11.7)
c
20.5 ± 1.0
12.4 ± 0.5
(19.1 – 22.1)
(11.8 – 13.1)
c'
2.2 ± 0.2
5.4 ± 0.4
(1.9 – 2.5)
(4.8 – 6.3)
T or V
64.1 ± 4.9
73.1 ± 0.4
(57.5 – 72.8)
(72.4 – 73.7)
Max. body diam.
24.4 ± 1.8
27.9 ± 2.1
(22.4 – 27.9)
(24.2 – 31.7)
Stylet
13.7 ± 0.8
13.4 ± 1.5
(12.6 – 14.9)
(11.3 – 16.2)
Median bulb length
17.4 ± 2.0
19.6 ± 1.7
(14.3 – 20.3)
(17.1 – 22.0)
Median bulb diam.
11.9 ± 1.1
14.9 ± 1.8
(10.8 – 13.3)
(13.0 – 19.3)
Tail length
33.7 ± 2.3
59.2 ± 2.6
(30.5 – 38.4)
(56.7 – 65.0)
Cloacal or anal body diam.
15.5 ± 1.1
10.9 ± 0.5
(13.8 – 17.1)
(10.2 – 11.8)
Spicule length*
15.3 ± 1.1
–
(13.7 – 17.5)
Notes: All measurements are in μm: mean± SD (range). *Curved along arc from bottom of capitulum depression to distal end.
Molecular analysis
The two nematodes vouchered had the same sequence in the ITS locus with a length of 969 bp, this sequence was submitted in GeneBank with accession number MK372853. Both trees obtained with maximum likelihood and neighbor joining methods share the same topology. The resulting tree (Fig. 2) showed a well-supported subdivision of fungivorus-group into two main clades, the first includes B. fungivorus, Bursaphelenchus seani (Giblin and Kaya, 1983), Bursaphelenchus arthuri (Burgermeister et al., 2005) and Bursaphelenchus arthuroides (Gu et al., 2012) while the second Bursaphelenchus thailandae (Braasch and Braasch-Bidasak, 2002), Bursaphelenchus parathailandae (Gu et al., 2012), Bursaphelenchus willibaldi (Schönfeld et al., 2006) and Bursaphelenchus braaschae (Gu and Wang, 2010). This finding is according to Kanzaki et al. (2016) where the same result was obtained starting from SSU and LSU combined sequences. Based on these results, we identified the nematodes as Bursaphelenchus fungivourss voucher GT2018.
Discussion
The international trading of Crocus corms is considered a possible pathway of nematode introductions in new pest-free areas, where this crop is important for the local economy. For this reason, some plant-parasitic nematodes are regulated in trade in many countries of the world.
Collecting pest reports and notifications of nematodes isolated from C. sativus, a review of nematodes is presented in Table 3. A wide diversity of genera and species were associated with this crop; to be noted that the greatest number were extracted from soil. Most isolated nematodes have been reported in Asian countries, while only one species, Ditylenchus dipsaci, has been isolated in Africa. Spain, Greece and Italy are the only European countries where nematodes have been found associated with C. sativus.
Occurrence of nematodes associated with Crocus sativus L. in different geographic location.
The source of food is fundamental to trophic interactions. In Table 3, nematodes with different feeding habitats are illustrated; in particular, plant feeders were the most abundant, but the pathogenic role of most of the species remains unclear.
This investigation was conducted in order to certify that these corms were free from plant-parasitic nematodes, a prerequisite for the exportation of C. sativus to Guatemala (Decreto N° 36-98 Ley de Sanidad Vegetal y Animal and Acuerdo Gubernativo N° 745-99 Reglamento de la Ley de Sanidad Vegetal y Animal, faculta al Ministerio de Agricultura, Ganadería y Alimentacíon). Plant-parasitic nematodes directly related to the Crocus corms have not been isolated during routine checks for Crocus corms exportation in non-EU countries, but numerous specimens of Bursaphelenchus fungivorus have been isolated and observed.
This species was first found in rotting Gardenia sp. buds infected by the fungus Botrytis cinerea in the UK (Franklin and Hooper, 1962). It was later found in Germany in a growing medium containing bark for Pelargonium plants. Both findings were located in greenhouses (Braasch et al., 1999). It was also detected in coniferous bark imported from the Czech Republic and Russia to Germany (Braasch et al., 2002). Bursaphelenchus fungivorus was also reported on Pinus spp. and associated with Orthotomicus erosus in Spain (Arias et al., 2004, 2005); and with Pinus pinaster bark in Portugal (Fonseca et al., 2014).
Bursaphelenchus fungivorus, as most Bursaphelenchus species, is a fungal feeding nematode. It is attracted to most of the fungus species, on which it can feed and reproduce (Townshend, 1964). Mycophagous nematodes can reduce or even stop the growth of fungi causing hyphal shrinkage (Riffle, 1971) and the application of this kind of nematodes for the control of some fungi harmful to crops has been described in several studies (e.g. Ishibashi and Choi, 1991; Lagerlöf et al., 2011).
Between the root-inhabiting fungi reported as hosts of B. fungivorus there are: Alternaria solani, Botrytis cinerea, Fusarium culmorum, Fusarium oxysporum, Fusarium solani, Ophiobolus graminis, Pythium debaryanum, Pythium ultimum, Rhizoctonia solani, Trichoderma viride and Verticillim albo-atrum (Townshend, 1964). Some of these have been reported as pathogens of saffron (Ahrazem et al., 2010), one of the most destructive diseases in C. sativus cultivation is Fusarium oxysporum because it causes severe yield losses (Cappelli, 1994).
Bursaphelenchus fungivorus is the most reported species among the nematode of the funivorus-group. The host range of the nematodes in this particular group is relatively wide with respect to the other Bursaphelenchus groups because the species have been found associated not only with coniferous dead or dying trees or insect vectors, but also in other type of trees (Bursaphelenchus kiyoharai (Kanzaki et al., 2011), Bursaphelenchus maxbassiensis (Massey, 1971), Bursaphelenchus penai (Kanzaki et al., 2014a), Bursaphelenchus sycophilus (Kanzaki et al., 2014b) and B. willibaldi), in the plant tissues of herbaceous crops (B. fungivorus and Bursaphelenchus hunti (Steiner, 1935; Giblin and Kaya, 1983), in soil (Bursaphelenchus gonzalezi (Loof, 1964) and B. seani) and in peat moss (Bursaphelenchus rockyi (Xu et al., 2018; Steiner, 1935; Loof, 1964; Massey, 1971; Mahajan, 1973; Fotedar and Handoo, 1977; Giblin and Kaya, 1983; Schönfeld et al., 2006; Kanzaki et al., 2011; Kanzaki et al., 2014a, 2014b; Xu et al., 2018). Since many Bursaphelenchus of the fungivorus-group have been found in subterranean organs of plants or directly in the soil, the nematodes of this group are likely to have a predisposition to underground life and are not closely related to the wood of the trees.
In conclusion, in this work, a new species of Italian nematode fauna was isolated, in particular, associated with C. sativus plants. Further research about the role of B. fungivorus as the control agent against pathogenic fungi on corms of C. sativus will have to be performed.