Add to ORKGPeat cores were collected in 4 remnant marsh islands and 4 drained, farmed islands throughout the Sacramento - San Joaquin Delta of California in order to characterize the peat accretion history of this region. Radiocarbon age determination of marsh macrofossils at both marsh and farmed islands showed that marshes in the central and western Delta started forming between 6030 and 6790 cal yr BP. Age-depth models for three marshes were constructed using cubic smooth spline regression models. The resulting spline fit models were used to estimate peat accretion histories for the marshes. Estimated accretion rates range from 0.03 to 0.49 cm yr{sup -1} for the marsh sites. The highest accretion rates are at Browns Island, a marsh at the confluenc...
Coastal wetlands are declining globally, and while wetland restoration looks to offset these losses,...
Modern and forecasted flooding of deltas is accelerated by subsidence of Holocene deposits. Subsiden...
Coastal marsh sediments provide an important archive of environmental changes at the environment whe...
There is substantial interest in stopping and reversing the effects of subsidence in the Sacramento–...
In this paper, we report on the adaptation and application of a one-dimensional marsh surface elevat...
Coastal marshes are complex ecogeomorphic feedback systems that require further investigation on the...
Fluctuations in sea-level rise rates are thought to dominate the formation and evolution of coastal ...
The stability of levees in the Sacramento-San Joaquin Delta is threatened by continued subsidence of...
The Mississippi Delta consists of six major Holocene deltaic complexes, that each had a life-span of...
Long-term persistence of coastal wetlands depends on maintenance of surface elevations relative to s...
Sediment cores were collected from wetlands along a headwaters-to-estuary gradient within the San Jo...
Stable carbon isotopes and pollen analysis provide a multiproxy record of vegetation change in four ...
EXTRACT (SEE PDF FOR FULL ABSTRACT): Tidal marsh sediments collected from Browns Island in the lo...
Sea‐level dynamics, sediment availability, and marine energy are critical drivers of coastal wetland...
Coastal wetlands are declining globally, and while wetland restoration looks to offset these losses,...
Modern and forecasted flooding of deltas is accelerated by subsidence of Holocene deposits. Subsiden...
Coastal marsh sediments provide an important archive of environmental changes at the environment whe...
There is substantial interest in stopping and reversing the effects of subsidence in the Sacramento–...
In this paper, we report on the adaptation and application of a one-dimensional marsh surface elevat...
Coastal marshes are complex ecogeomorphic feedback systems that require further investigation on the...
Fluctuations in sea-level rise rates are thought to dominate the formation and evolution of coastal ...
The stability of levees in the Sacramento-San Joaquin Delta is threatened by continued subsidence of...
The Mississippi Delta consists of six major Holocene deltaic complexes, that each had a life-span of...
Long-term persistence of coastal wetlands depends on maintenance of surface elevations relative to s...
Sediment cores were collected from wetlands along a headwaters-to-estuary gradient within the San Jo...
Stable carbon isotopes and pollen analysis provide a multiproxy record of vegetation change in four ...
EXTRACT (SEE PDF FOR FULL ABSTRACT): Tidal marsh sediments collected from Browns Island in the lo...
Sea‐level dynamics, sediment availability, and marine energy are critical drivers of coastal wetland...
Coastal wetlands are declining globally, and while wetland restoration looks to offset these losses,...
Modern and forecasted flooding of deltas is accelerated by subsidence of Holocene deposits. Subsiden...
Coastal marsh sediments provide an important archive of environmental changes at the environment whe...