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Seed germination in a southern Australian temperate seagrass

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journal contribution
posted on 2024-06-17, 23:57 authored by E Cumming, JC Jarvis, Craig ShermanCraig Sherman, PH York, TM Smith
In a series of experiments, seeds from a temperate seagrass species,Zostera nigricauliscollected in Port Phillip Bay, Victoria, Australia were exposed to a range of salinities (20 PSU pulse/no pulse, 25 PSU, 30 PSU, 35 PSU), temperatures (13 °C, 17 °C, 22 °C), burial depths (0 cm, 1 cm, 2 cm) and site specific sediment characteristics (fine, medium, coarse) to quantify their impacts on germination rate and maximum overall germination. In southern Australia the seagrassZ. nigricaulisis a common subtidal species; however, little is known about the factors that affect seed germination which is a potential limiting factor in meadow resilience to natural and anthropogenic disturbances. Overall seed germination was low (<20%) with germination decreasing to <10% when seeds were placed in the sediment. When germination ofZ. nigricaulisseeds was observed, it was enhanced (greater overall germination and shorter time to germination) when seeds were exposed to a 20 PSU pulse for 24 h, maintained at salinity of 25 PSU, temperatures <13 °C, in sediments with fine or medium grain sand and buried at a depth of <1 cm. These results indicate that germination ofZ. nigricaulisseeds underin situconditions may be seasonally limited by temperatures in southern Australia. Seed germination may be further restricted by salinity as freshwater pulses reaching 20 PSU are typically only observed in Port Phillip Bay following large scale rainfall events. As a result, these populations may be particularly susceptible to disturbance with only a seasonally limited capacity for recovery.

History

Journal

PeerJ

Volume

2017

Article number

ARTN e3114

Pagination

1 - 19

Location

United States

Open access

  • Yes

ISSN

2167-8359

eISSN

2167-8359

Language

English

Publication classification

C Journal article, C1 Refereed article in a scholarly journal

Copyright notice

2017, Cumming et al.

Issue

3

Publisher

PEERJ INC