特拉华湾潮汐沼泽的长期沉积物积聚和营养物沉积

IF 0.5 4区环境科学与生态学 Q4 BIODIVERSITY CONSERVATION

Proceedings of the Academy of Natural Sciences of Philadelphia Pub Date : 2020-03-26 DOI:10.1635/053.167.0107

D. Velinsky, Bhanu Paudel, C. Sommerfield

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引用次数: 2

摘要

摘要。对特拉华州Murderkill河潮汐沼泽沉积物中的长期沉积物堆积和营养物浓度进行了研究。测量了放射性核素（210Pb和137Cs）、稳定同位素（13C和15N）、有机物浓度和营养物浓度。潮沼沉积物堆积速率范围为0.10至0.20 g cm-2 yr-1，吸积速率范围为0.31至0.74 cm yr-1。上游站点的下孔中碳（C）与氮（N）之比（~24）较高，下游站点的表层沉积物岩芯中也发现了类似的C/N比。表层沉积物中的沉积物氮浓度在上游最高（大部分≥1%的氮），在下游下降。总氮浓度在1910年至1920年间最高（～1.5%氮），到1940年降至约0.6%氮，然后保持不变。1940年代后，C4植物Spartina（灯芯草）对C3植物的优势可能是由于与水文变化和相对海平面上升相关的盐水向上运动。所有岩芯中的表层沉积物的总磷含量均高于地下沉积物。最靠近河口的下游站点的表面TP突然增加（即0–10 cm）。从2003年到现在，沉积物TP略有增加（即从0.07%P增加到0.11%P）。Murderkill河沼泽地的沉积物堆积和堆积速率与该地区先前研究确定的堆积速率相似。

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Long-term sediment accretion and nutrient deposition in a tidal marsh of the Delaware Bay

ABSTRACT. Long-term sediment accretion and nutrient concentrations were investigated in tidal marsh sediments of the Murderkill River, Delaware. Radionuclides (210Pb and 137Cs), stable isotopes (13C and 15N), organic matter concentrations and nutrient concentrations were measured. Tidal marsh sediment accumulation rates ranged from 0.10 to 0.20 g cm-2 yr-1, and accretion rates ranged from 0.31 to 0.74 cm yr-1. The Carbon (C) to nitrogen (N) ratio (∼24) was higher in the downcore of upstream sites, and a similar C/N ratio was identified in surface sediment cores at the downstream sites. The sediment N concentration in the surface sediments was highest at the upstream sites (mostly ≥1% of N) and decreased downstream. Total nitrogen concentrations were highest from 1910 to 1920 (∼1.5% N), decreased to approximately 0.6% N by 1940, and then remained constant to present. The dominance of the C4 plant Spartina (cordgrass) over C3 plants after the 1940s may be due to an upward movement of saline water associated with hydrologic changes and a rise in relative sea level. Surface sediments in all of the cores have more total phosphorus (TP) than below ground. The downstream site closest to the estuary had an abrupt increase in surface TP (i.e., 0–10 cm). Sediment TP increased slightly from 2003 to present time (i.e., from 0.07 to 0.11% P). Sediment accumulation and accretion rates in the Murderkill River marshes are similar to the accretion rates determined by previous studies in the region.

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Proceedings of the Academy of Natural Sciences of Philadelphia 生物多样性保护-生物多样性保护

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