Pamela L. Campbell‐Swarzenski scite author profile

Small, steep watersheds are prolific sediment sources from which sediment flux is highly sensitive to climatic changes. Storm intensity and frequency are widely expected to increase during the 21st century, and so assessing the response of small, steep watersheds to extreme rainfall is essential to understanding landscape response to climate change. During record winter rainfall in 2016–2017, the San Lorenzo River, coastal California, had nine flow peaks representing 2–10‐year flood magnitudes. By the third flood, fluvial suspended sediment showed a regime shift to greater and coarser sediment supply, coincident with numerous landslides in the watershed. Even with no singular catastrophic flood, these flows exported more than half as much sediment as had a 100‐year flood 35 years earlier, substantially enlarging the nearshore delta. Annual sediment load in 2017 was an order of magnitude greater than during an average‐rainfall year, and 500‐fold greater than in a recent drought. These anomalous sediment inputs are critical to the coastal littoral system, delivering enough sediment, sometimes over only a few days, to maintain beaches for several years. Future projections of megadroughts punctuated by major atmospheric‐river storm activity suggest that interannual sediment‐yield variations will become more extreme than today in the western USA, with potential consequences for coastal management, ecosystems, and water‐storage capacity. The occurrence of two years with major sediment export over the past 35 years that were not associated with extremes of the El Niño Southern Oscillation or Pacific Decadal Oscillation suggests caution in interpreting climatic signals from marine sedimentary deposits derived from small, steep, coastal watersheds, to avoid misinterpreting the frequencies of those cycles. Published 2018. This article is a U.S. Government work and is in the public domain in the USA.

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Seasonal variability in the source and composition of particulate matter in the depositional zone of Baltimore Canyon, U.S. Mid-Atlantic Bight

Prouty¹,

Mienis²,

Campbell‐Swarzenski³

et al. 2017

Deep Sea Research Part I: Oceanographic Research Papers

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Highlights  Vertical transport and lateral transport across the continental margin were the dominant processes driving seasonal input of particulate matter  n-alkane and sterol biomarker results combined with isotopes and trace metals, offers a multi dimensional approach for deciphering organic matter sources  Elevated Chlorophyll-a and sterol concentrations and contemporaneous increase in the particle reactive micronutrients during the spring sampling period capture seasonal influx of relatively fresh phytodetritus.  Connectivity to adjacent watershed facilitates offshore transport of "aged" terrestrial organic matter and nutrients

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Determining Marine vs. Terrestrial Sources of Organic Matter (Om) Within Submarine Canyon Sediment Using Lipid Biomarkers

Doherty¹,

Close²,

Prouty³

et al. 2016

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Polycyclic aromatic hydrocarbons, polychlorinated biphenyls, and metals in ambient sediment at mussel biomonitoring sites, Puget Sound, Washington

Takesue¹,

Campbell‐Swarzenski²,

Conn³

2019

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