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1. Consequences of Salinity Change, Salinity History, and Shell Morphology on Early Growth of Juvenile Oysters

   https://doi.org/10.2983/035.042.0103  

   Manuel, Emily C.; Hare, Matthew P.; Munroe, Daphne (April 2023, Journal of Shellfish Research)

   Estuaries provide valuable habitat for the eastern oyster (Crassostrea virginica). Although salinity at a given location fluctuates regularly with tides, upbay and downbay salinity differences span a broad estuarine salinity gradient. Higher salinity habitats downbay support faster oyster growth, whereas lower salinities upbay act as a refuge from predation and disease but slows growth. Two experiments were performed to investigate the effect of salinity, postsettlement salinity changes, and shell morphology on juvenile oyster growth. One experiment used wild oyster spat collected from three distinct Delaware Bay salinity zones that were then transplanted into various salinity conditions in the laboratory, where growth was monitored. Transplanting into low salinity led to decreased growth compared with transplanting to higher salinity, and growth of oyster spat was overall highest for spat from the lowest salinity source. Growth did not differ among shell morphologies. A second experiment used hatchery reared larvae set in one of four different salinity conditions. Those spat were maintained in settlement salinities 22, 16, 10, and 6 for 2–3 wk postsettlement, then measured before fully factorial transfer into new salinity conditions with measurement 3 wk later. Lower final salinity treatments were associated with lower growth, lower initial salinity treatments were associated with faster final treatment growth, and final growth depended on the interaction between initial and final salinity. Therefore, in addition to the effects of acute salinity changes on growth, early postsettlement hyposalinity stress can generate compensatory juvenile oyster growth. As increased freshwater events due to climate change are expected in the Delaware Bay and regionally in the Northeast, these results indicate that nonlinear early life stress responses are important to quantify to better understand oyster stock resilience and plan management. 

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2. Bay of Bengal salinity stratification and Indian summer monsoon intraseasonal oscillation: 1. Intraseasonal variability and causes: SALINITY STRATIFICATION AND MISO

   https://doi.org/10.1002/2017JC012691  

   Li, Yuanlong; Han, Weiqing; Ravichandran, M.; Wang, Wanqiu; Shinoda, Toshiaki; Lee, Tong (May 2017, Journal of Geophysical Research: Oceans)
3. Salinity legacy: Foliar microbiome's history affects mutualist‐conferred salinity tolerance

   https://doi.org/10.1002/ecy.3679  

   Subedi, Suresh C.; Allen, Preston; Vidales, Rosario; Sternberg, Leonel; Ross, Michael; Afkhami, Michelle E. (April 2022, Ecology)

   Abstract The rapid human‐driven changes in the environment during the Anthropocene have placed extreme stress on many plants and animals. Beneficial interactions with microorganisms may be crucial for ameliorating these stressors and facilitating the ecosystem services host organisms provide. Foliar endophytes, microorganisms that reside within leaves, are found in essentially all plants and can provide important benefits (e.g., enhanced drought tolerance or resistance to herbivory). However, it remains unclear how important the legacy effects of the abiotic stressors that select on these microbiomes are for affecting the degree of stress amelioration provided to their hosts. To elucidate foliar endophytes' role in host‐plant salt tolerance, especially if salinity experienced in the field selects for endophytes that are better suited to improve the salt tolerance of their hosts, we combined field collections of 90 endophyte communities from 30 sites across the coastal Everglades with a manipulative growth experiment assessing endophyte inoculation effects on host‐plant performance. Specifically, we grew >350 red mangrove (Rhizophora mangle) seedlings in a factorial design that manipulated the salinity environment the seedlings experienced (freshwater vs. saltwater), the introduction of field‐collected endophytes (live vs. sterilized inoculum), and the legacy of salinity stress experienced by these introduced endophytes, ranging from no salt stress (0 parts per thousand [ppt] salinity) to high salt stress (40 ppt) environments. We found that inoculation with field‐collected endophytes significantly increased mangrove performance across almost all metrics examined (15%–20% increase on average), and these beneficial effects typically occurred when the endophytes were grown in saltwater. Importantly, our study revealed the novel result that endophyte‐conferred salinity tolerance depended on microbiome salinity legacy in a key coastal foundation species. Salt‐stressed mangroves inoculated with endophyte microbiomes from high‐salinity environments performed, on average, as well as plants grown in low‐stress freshwater, while endophytes from freshwater environments did not relieve host salinity stress. Given the increasing salinity stress imposed by sea level rise and the importance of foundation species like mangroves for ecosystem services, our results indicate that consideration of endophytic associations and their salinity legacy may be critical for the successful restoration and management of coastal habitats. 

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4. Bay of Bengal salinity stratification and Indian summer monsoon intraseasonal oscillation: 2. Impact on SST and convection: SALINITY STRATIFICATION AND MISO 2

   https://doi.org/10.1002/2017JC012692  

   Li, Yuanlong; Han, Weiqing; Wang, Wanqiu; Ravichandran, M.; Lee, Tong; Shinoda, Toshiaki (May 2017, Journal of Geophysical Research: Oceans)
5. Disentangling the effects of drought, salinity, and sulfate on baldcypress growth in a coastal plain restored wetland: Drought and salinity effects on baldcypress

   https://doi.org/10.1111/rec.12349  

   Powell, Amanda S.; Jackson, Lonnie; Ardón, Marcelo (July 2016, Restoration Ecology)