Details

Autor(en) / Beteiligte

• Langley, J. Adam
• McKee, Karen L
• Cahoon, Donald R
• Cherry, Julia A
• Megonigal, J. Patrick

Titel

Elevated CO₂ stimulates marsh elevation gain, counterbalancing sea-level rise

Ist Teil von

• Proceedings of the National Academy of Sciences - PNAS, 2009-04, Vol.106 (15), p.6182-6186

Ort / Verlag

United States: National Academy of Sciences

Erscheinungsjahr

2009

Quelle

MEDLINE

Beschreibungen/Notizen

• Tidal wetlands experiencing increased rates of sea-level rise (SLR) must increase rates of soil elevation gain to avoid permanent conversion to open water. The maximal rate of SLR that these ecosystems can tolerate depends partly on mineral sediment deposition, but the accumulation of organic matter is equally important for many wetlands. Plant productivity drives organic matter dynamics and is sensitive to global change factors, such as rising atmospheric CO₂ concentration. It remains unknown how global change will influence organic mechanisms that determine future tidal wetland viability. Here, we present experimental evidence that plant response to elevated atmospheric [CO₂] stimulates biogenic mechanisms of elevation gain in a brackish marsh. Elevated CO₂ (ambient + 340 ppm) accelerated soil elevation gain by 3.9 mm yr⁻¹ in this 2-year field study, an effect mediated by stimulation of below-ground plant productivity. Further, a companion greenhouse experiment revealed that the CO₂ effect was enhanced under salinity and flooding conditions likely to accompany future SLR. Our results indicate that by stimulating biogenic contributions to marsh elevation, increases in the greenhouse gas, CO₂, may paradoxically aid some coastal wetlands in counterbalancing rising seas.