Taxonomical and Functional Diversity of Saprolegniales in Anzali Lagoon, Iran

Taxonomical and Functional Diversity of Saprolegniales in Anzali Lagoon, Iran

Aquat Ecol (2020) 54:323–336 https://doi.org/10.1007/s10452-019-09745-w (0123456789().,-volV)(0123456789().,-volV) Taxonomical and functional diversity of Saprolegniales in Anzali lagoon, Iran Hossein Masigol . Seyed Akbar Khodaparast . Reza Mostowfizadeh-Ghalamfarsa . Keilor Rojas-Jimenez . Jason Nicholas Woodhouse . Darshan Neubauer . Hans-Peter Grossart Received: 10 September 2019 / Accepted: 31 December 2019 / Published online: 16 January 2020 Ó The Author(s) 2020 Abstract Studies on the diversity, distribution and bisexualis, A. debaryana and A. intricata. Evaluation ecological role of Saprolegniales (Oomycota)in of the ligno-, cellulo- and chitinolytic activities was freshwater ecosystems are currently receiving atten- performed using plate assay methods. Most of the tion due to a greater understanding of their role in Saprolegniales isolates were obtained in autumn, and carbon cycling in various aquatic ecosystems. In this nearly 50% of the strains showed chitinolytic and study, we characterized several Saprolegniales spe- cellulolytic activities. However, only a few Saproleg- cies isolated from Anzali lagoon, Gilan province, Iran, niales strains showed lignolytic activities. This study using morphological and molecular methods. Four has important implications for better understanding species of Saprolegnia were identified, including S. the ecological niche of oomycetes, and to differentiate anisospora and S. diclina as first reports for Iran, as them from morphologically similar, but functionally well as Achlya strains, which were closely related to A. different aquatic fungi in freshwater ecosystems. Keywords Achlya Á Saprolegnia Á Aquatic Handling Editor: Te´lesphore Sime-Ngando. ecosystems Á Carbon cycling Á Polymer degradation Á H. Masigol Á S. A. Khodaparast Saprolegniaceae Á Achlyaceae Department of Plant Protection, Faculty of Agricultural Sciences, University of Guilan, Rasht, Iran H. Masigol Á J. N. Woodhouse Á H.-P. Grossart (&) Department of Experimental Limnology, Leibniz-Institute Introduction of Freshwater Ecology and Inland Fisheries, Alte Fischerhuette 2, 16775 Stechlin, Germany Saprolegniales, as a monophyletic order, belong to the e-mail: [email protected] phylum Oomycota. It includes biflagellate hetero- R. Mostowfizadeh-Ghalamfarsa trophic microorganisms that have eucarpic mycelial Department of Plant Protection, School of Agriculture, and coenocytic thalli of unlimited growth. They Shiraz University, Shiraz, Iran produce asexual (sporangia) and sexual (gametangia) K. Rojas-Jimenez structures delimited by septa. Saprolegniales are Escuela de Biologia, Universidad de Costa Rica, mainly predominantly freshwater saprophytes of plant San Jose 11501, Costa Rica and animal debris (Beakes and Sekimoto 2009). This order contains three families: Achlyaceae (four gen- D. Neubauer Á H.-P. Grossart Institute of Biochemistry and Biology, University of era), Saprolegniaceae (11 genera) and Verrucal- Potsdam, Potsdam, Germany vaceae (7 genera) (Beakes et al. 2014; Molloy et al. 123 324 Aquat Ecol (2020) 54:323–336 2014; Beakes and Thines 2017; Rocha et al. 2018). morphological and phylogenetic analyses. In addition Amongst these, Achlya, Brevilegnia, Dictyuchus, to their taxonomy, we tested the hypothesis raised by Leptolegnia, Plectospira, Saprolegnia and Thraus- Masigol et al. (2019) that fungi and Saprolegniales totheca have been commonly reported to inhabit differ in their affinity for polymeric dissolved organic freshwater ecosystems (Czeczuga et al. 2005; Mou- matter (DOM) and consequently in their involvement savi et al. 2009; Marano et al. 2011). in aquatic DOM degradation and cycling. To this, we Saprolegniales species have been recently receiv- evaluated the ligno-, cellulo- and chitinolytic activities ing increased attention due to their wide distribution, of the selected strains. Our results have important ubiquitous occurrence (Liu and Volz 1976; Kiziewicz implications for understanding the different roles of and Kurza˛tkowska 2004; Nascimento et al. 2011), fungi and Saprolegniales in aquatic ecosystems. their devastating fish pathogenicity in aquaculture and fish farms and responsibility for massive decline of natural salmonid populations (Griffiths et al. 2003; Materials and methods Van West 2006; Romansic et al. 2009; Van Den Berg et al. 2013). Aside from their pathogenicity, many Sampling site authors have also investigated relative frequencies of Saprolegniales throughout different seasons in rela- Anzali lagoon is situated at the Caspian Sea near tion to physico-chemical features of the respective Bandar-e Anzali, in the northern Iranian province of freshwater ecosystems (El-Hissy and Khallil 1991; Gilan. The lagoon divides Bandar-e Anzali into two Czeczuga et al. 2003; Paliwal and Sati 2009). parts, and is home to both the Selke Wildlife Refuge Although these oomycetes are generally isolated from and the Siahkesheem Marsh. Three sampling sites as plant debris, their involvement in organic matter representatives of the main habitats in Anzali lagoon degradation in freshwater ecosystems remains less were selected: (1) river entrance, (2) shallow water clear. habitat and (3) urban habitat (Fig. 1). Species identification of Saprolegniales is largely based on morphological features (Coker 1923; Sey- Seasonal distribution of Saprolegniales mour 1970; Johnson et al. 2002). However, this and isolation identification is perplexing due to several reasons. First of all, in many cases, morphological and Throughout 2017, 511 Saprolegniales isolates were morphometric characters are vague and variable. isolated using the methods described earlier by Coker Secondly, more determinative features such as sexual (1923) and Seymour (1970). In brief, samples of structures are not always produced in vitro. Also, lack decaying leaves of the dominant local vegetation of type species and accurate description make it even collected from the three sampling locations were harder to define specific species (Sandoval-Sierra et al. brought to the mycology laboratory of the University 2014, 2015). Recently, sequencing of the ribosomal of Guilan in separate sterile polyethylene bags. Leaves internal transcribed spacer (ITS) has been applied to were cut into approximately ten equal pieces create a phylogenetic framework within which to (0.5 9 0.5 cm). After washing with distilled water, address issues of morphological and taxonomic they were incubated at 20–25 °C in sterilized plates ambiguity (Steciow et al. 2014). Whether comple- containing 10 mL sterile distilled water with 20 mentary molecular targets, in addition to the de facto sterilized hemp seed halves (Cannabis sativa L.) ITS region, would improve this approach or are even (Middleton 1943). Temperature and pH of surface necessary is still open to debate (Robideau et al. 2011). water were continuously recorded immediately after In this study, we investigated the diversity and collecting decaying leaves. Three replicates were seasonality of various strains of Saprolegniales iso- considered for each location. The average number of lated from Anzali lagoon, Iran. In total, we obtained colonized hemp seed halves from ten Petri dishes was 511 isolates from three locations during 2017 and used to estimate the abundance of Saprolegniales studied their seasonality. From these, 23 isolates were throughout the year. The presence of Saprolegniales randomly selected representing different sampling was confirmed by observing at least one of the general time points and locations and identified using 123 Aquat Ecol (2020) 54:323–336 325 Fig. 1 Sampling locations ((1) river entrance, (2) shallow lake habitat and (3) urban habitat) for isolation of Saprolegniales taxa from Anzali lagoon Iran, during 2017 features of oomycetes such as oogonia, sporangia, sexual structures, several treatments were used. The large and aseptate mycelia and motile zoospores. nutrition treatments included reciprocal culturing of After 3–5 days, a piece of mycelia from the all strains with one another and Trichoderma sp. colonized hemp seed halves was transferred to a fresh (Brasier et al. 1978) on CMA, hemp seed agar (HSA) CMA-PARP medium (Kannwischer and Mitchell (Hendrix 1964), soybean agar (SA) (Savage et al. 1981). This step was repeated three to five times to 1968), rape seed extract agar (REA) (Satour 1967), achieve bacterial-free (axenic) cultures. A single carrot juice agar (CJA) (Ershad 1971), mPmTG hypha was transferred to cornmeal agar (CMA) (Moreau and Moreau 1936a), immersing colonized medium (Seymour and Fuller 1987). The hyphal-tip CMA in glycerine (4%) (Moreau and Moreau 1936b) technique was conducted three to five times to obtain a and culturing the isolates in Petri dishes containing ten pure culture in CMA. The specimens of these new boiled hemp seeds in distilled lake water and distilled strains were then deposited in the Fungal Herbarium of water (50/50). The temperature treatments also the Iranian Research Institute of Plant Protection, Iran. included culturing the isolates in 5, 10, 15, 20, and 25 °C in Petri dishes containing ten boiled hemp seeds Identification and phylogenetic analyses in distilled lake water and distilled water (50/50). Morphological identification DNA extraction and PCR Asexual and sexual structures of isolates were char- The DNA extraction of the isolates was conducted acterized and measured in liquid (water) cultures based on a slightly modified protocol of Montero-Pau (n = 30). To investigate strains failing to produce any et al. (2008). Briefly, 100 lL of alkaline lysis

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