Keyyana Blount scite author profile

Accelerated sea level rise threatens coastal wetland plant communities where coastal development restricts transgression, and inundation increases and declining sediment supplies limit the capacity of coastal wetlands to build in elevation. Juncus gerardii Loisel., black needle rush, is a high latitude cosmopolitan plant species and, within salt marshes of the U.S. mid-Atlantic and New England coasts, it occupies a narrow belt along the marshupland border. Examination of historic aerial photography, vegetation resurveys, and peat composition analysis for U.S. Northeastern marshes have shown vegetation change patterns indicative of increased inundation, including decline of J. gerardii. To interpret loss patterns for J. gerardii in southern New England, we conducted a factorial experiment to

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Partial recovery of microbial function in restored coastal marshes of Oregon, USA

Fitch

Blount

Reynolds

et al. 2022

Soil Science Soc of Amer J

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Restoring coastal wetland habitats is important for returning many ecosystem services. However, very little is known about whether these restoration events return soil microbial functions and C storage to reference-level capacity. We compared soil microbial function (microbial enzyme activity, catabolic responses to C substrates, CH 4 and CO 2 gas production) and soil C storage attributes (percent C, bulk density, and C density) in disturbed, restored, and reference wetlands in freshwater and saline coastal Oregon wetland complexes. We found that diking and draining fresh and saline wetlands can cause significant decreases in historic sediment C pools, but that restoration can return the capacity for C sequestration. We also found that restoration partially returned physicochemical soil properties and microbial functions to reference levels in freshwater wetlands, indicating a trajectory of recovery of ecosystem function. However, this trajectory was less discernable in the saline wetland complex where the restored marsh was an unvegetated mudflat and will likely require decades to millennia to succeed to the high-marsh characteristics of the reference marsh, suggesting that filling subsided restored sites to elevations typical of intact salt marshes may more quickly return soil ecosystem function.

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Consequences of Fire and Other Prairie Management Treatments for Macrofungi in the Pacific Northwest of the U. S. A

Roy¹,

Hamman²,

Soukup³

et al. 2023

Preprint

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Keyyana Blount

Sea level rise, drought and the decline of Spartina patens in New England marshes

Inundation and precipitation effects on growth and flowering of the high marsh species Juncus gerardii

Partial recovery of microbial function in restored coastal marshes of Oregon, USA

Consequences of Fire and Other Prairie Management Treatments for Macrofungi in the Pacific Northwest of the U. S. A

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