Biomass data from the Peat Collapse-Saltwater Intrusion Field Experiment within Everglades National Park (FCE), collected from October 2014 to September 2016

With sea level rise increasing, saltwater intrusion into low-lying coastal wetlands is likely to occur.  We simulated saltwater intrusion into an Everglades marsh through monthly additions of elevated salinity water. Monthly biomass, aboveground net primary production, and culm density measurements were measured from a brackish water and freshwater marsh. All measurements were taken every other month 24 hours after dosing. Measurements occurred from Oct 2014 - Sep 2016. Ecosystem flux measured includes gross ecosyetem production, ecosystem respiration of CO2, net ecosystem production, and ecosystem respiration of CH4. These data are published in Wilson, B.J., Servais, S., Mazzei, V., Davis, S.E., Kelly, S., Gaiser, E., Kominoski, J.S., Richards, J., Rudnick, D., Sklar, F., Stachelek, J., and Troxler, T.G. Salinity pulses interact with seasonal dry-down to increase ecosystem carbon loss in marshes of the Florida Everglades. Ecological Applications. Accepted.

随着海平面上升加剧，盐水入侵低洼沿海湿地的风险日益升高。 本研究通过每月施加高盐度水体，模拟了大沼泽地（Everglades）沼泽中的盐水入侵过程。 研究分别在微咸水沼泽（brackish water marsh）与淡水沼泽（freshwater marsh）中开展了生物量、地上净初级生产力（aboveground net primary production）及茎秆密度（culm density）的月度测定。所有测定均在施盐处理后每隔1个月取样1次，取样时间为给药后24小时，测定周期为2014年10月至2016年9月。 本次测定的生态系统通量包括总生态系统生产力（gross ecosystem production）、CO₂生态系统呼吸、净生态系统生产力（net ecosystem production）以及CH₄生态系统呼吸。 相关数据集的研究成果已发表于：Wilson, B.J.、Servais, S.、Mazzei, V.、Davis, S.E.、Kelly, S.、Gaiser, E.、Kominoski, J.S.、Richards, J.、Rudnick, D.、Sklar, F.、Stachelek, J. 与 Troxler, T.G. 撰写的《Salinity pulses interact with seasonal dry-down to increase ecosystem carbon loss in marshes of the Florida Everglades》，刊载于《Ecological Applications》，目前已被录用。