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conferenceseries

.com

Volume 8

Journal of Ecosystem & Ecography

Biodiversity Congress 2018

July 26-27, 2018

July 26-27, 2018 Melbourne, Australia

7

th

International Conference on

Biodiversity Conservation and Ecosystem Management

Metabarcoding and culturing to investigate the diverse fungi associated with cabbage in and their

bio-control potential

Michal Kuchár

Bio-Protection Research Centre, New Zealand

Statement of the Problem:

Agricultural crops such as cabbage (

Brassica oleracea

var.

capitata

) are vulnerable to a plethora of pests

and diseases. Endophytic fungi are increasingly used in biological control against these pests and diseases as agricultural producers

attempt to reduce their environmental footprint.

Methodology & Theoretical Orientation:

In this study, putative endophytic fungi were isolated from cabbage grown in three

regions in New Zealand in order to identify isolates with potential to assist crop production. Selected fungal isolates were tested in

bioassays to determine their potential for biological control of a fungal disease caused by

Sclerotinia sclerotiorum

and an insect pest

of cabbage - Diamondback moth (

Plutella xylostella

). In addition to isolation from plants, patterns in fungal communities were

also described using metabarcoding data acquired by high-throughput sequencing and compared with data on direct isolation

through culturing.

Findings:

Over 100 species were identified using culturing approaches, while metabarcoding approaches suggest the number of

fungal species associated with cabbage tissues could be over 200. Fungal communities differ in above and belowground parts of

cabbage. There does not seem to be a significant difference between fungal communities in different regions of New Zealand.

Increased mortality of Diamondback moth larvae feeding on cabbage leaves treated with spore suspensions of several isolates of

Lecanicillium sp

. was observed. None of the tested isolates used as seed inoculants significantly reduced disease symptoms caused by

Sclerotinia sclerotiorum

in a bioassay on cabbage seedlings.

Conclusion & Significance:

In this study several isolates were identified as promising biological control agents of an insect pest of

cabbage. However, these isolates are members of a large consortium of fungi. The uncovered patterns in the fungal communities

underline the importance of understanding of the microbial communities associated with agricultural crop for us to improve it.

Biography

Michal Kuchár has completed his BSc in Biology and MSc in Plant Physiology from the Charles University in Prague in Czech Republic. His PhD at the Bio-

Protection Research Centre is aligned to the Next-Generation Biopesticides program and is focusing on fungal endophytes in

Brassica

species and their potential

use as bioprotection agents. He is isolating fungal endophytes from plants under different environmental and agricultural growth conditions and assessing the

factors that shape composition of fungal endophytic communities using next-generation sequencing techniques.

michal.kuchar@lincolnuni.ac.nz

Michal Kuchár, J Ecosyst Ecogr 2018, Volume 8

DOI: 10.4172/2157-7625-C4-041