Hydrologic alterations impact plant litter decay rate and ecosystem resilience in Mojave wetlands
Understanding ecosystem processes is vital for effective restoration of degraded ecosystems, especially wetlands. Restoration has become a necessity for management and conservation of the federally endangered Amargosa vole (Microtus californicus scirpensis) endemic to small, bulrush (Schoenoplectus...
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| Published in | Restoration ecology Vol. 27; no. 5; pp. 1094 - 1104 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Malden, USA
Wiley Periodicals, Inc
01.09.2019
Blackwell Publishing Ltd |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Understanding ecosystem processes is vital for effective restoration of degraded ecosystems, especially wetlands. Restoration has become a necessity for management and conservation of the federally endangered Amargosa vole (Microtus californicus scirpensis) endemic to small, bulrush (Schoenoplectus americanus) dominated wetlands in the Mojave Desert. Recent data indicate catastrophic decrease of the vole population and its habitat from local alterations to hydrology, combined with diminished decomposition rates of bulrush, persistence of plant litter, and minimal plant growth except along narrow margins along stream edges. We conducted a series of three field and one greenhouse experiment(s) testing the effect of (1) moisture level on plant decay rate, (2) litter removal on plant regeneration, (3) the interactive effect of litter removal and moisture level increase on plant regeneration, and (4) potential germination rate of bulrush seeds under multiple hydrologic regimes to understand how hydrologic alteration and litter decay ultimately influences marsh regeneration. Results revealed decrease in water level caused a 20‐fold reduction in decomposition rates of a degraded marsh. Litter removal alone and in combination with water table restoration significantly and positively affected bulrush resprouting (p < 0.0001 for both). Seed bank experiments showed high rates of germination in saturated and flooded soil conditions, emphasizing the potential role of seedlings in ecosystem recovery. This study shows how the interaction of hydrologic change and decreased decomposition can shift an ecosystem toward limits of resilience. These results inform restoration strategies in arid‐region wetlands dominated by plants with slow litter decay where strategic litter removal may beneficially increase plant growth. |
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| AbstractList | Understanding ecosystem processes is vital for effective restoration of degraded ecosystems, especially wetlands. Restoration has become a necessity for management and conservation of the federally endangered Amargosa vole (Microtus californicus scirpensis) endemic to small, bulrush (Schoenoplectus americanus) dominated wetlands in the Mojave Desert. Recent data indicate catastrophic decrease of the vole population and its habitat from local alterations to hydrology, combined with diminished decomposition rates of bulrush, persistence of plant litter, and minimal plant growth except along narrow margins along stream edges. We conducted a series of three field and one greenhouse experiment(s) testing the effect of (1) moisture level on plant decay rate, (2) litter removal on plant regeneration, (3) the interactive effect of litter removal and moisture level increase on plant regeneration, and (4) potential germination rate of bulrush seeds under multiple hydrologic regimes to understand how hydrologic alteration and litter decay ultimately influences marsh regeneration. Results revealed decrease in water level caused a 20‐fold reduction in decomposition rates of a degraded marsh. Litter removal alone and in combination with water table restoration significantly and positively affected bulrush resprouting (p < 0.0001 for both). Seed bank experiments showed high rates of germination in saturated and flooded soil conditions, emphasizing the potential role of seedlings in ecosystem recovery. This study shows how the interaction of hydrologic change and decreased decomposition can shift an ecosystem toward limits of resilience. These results inform restoration strategies in arid‐region wetlands dominated by plants with slow litter decay where strategic litter removal may beneficially increase plant growth. Understanding ecosystem processes is vital for effective restoration of degraded ecosystems, especially wetlands. Restoration has become a necessity for management and conservation of the federally endangered Amargosa vole ( Microtus californicus scirpensis ) endemic to small, bulrush ( Schoenoplectus americanus ) dominated wetlands in the Mojave Desert. Recent data indicate catastrophic decrease of the vole population and its habitat from local alterations to hydrology, combined with diminished decomposition rates of bulrush, persistence of plant litter, and minimal plant growth except along narrow margins along stream edges. We conducted a series of three field and one greenhouse experiment(s) testing the effect of (1) moisture level on plant decay rate, (2) litter removal on plant regeneration, (3) the interactive effect of litter removal and moisture level increase on plant regeneration, and (4) potential germination rate of bulrush seeds under multiple hydrologic regimes to understand how hydrologic alteration and litter decay ultimately influences marsh regeneration. Results revealed decrease in water level caused a 20‐fold reduction in decomposition rates of a degraded marsh. Litter removal alone and in combination with water table restoration significantly and positively affected bulrush resprouting ( p < 0.0001 for both). Seed bank experiments showed high rates of germination in saturated and flooded soil conditions, emphasizing the potential role of seedlings in ecosystem recovery. This study shows how the interaction of hydrologic change and decreased decomposition can shift an ecosystem toward limits of resilience. These results inform restoration strategies in arid‐region wetlands dominated by plants with slow litter decay where strategic litter removal may beneficially increase plant growth. |
| Author | Parmenter, Steve Castle, Stephanie Rejmánková, Eliška Foley, Janet |
| Author_xml | – sequence: 1 givenname: Stephanie orcidid: 0000-0002-8441-1573 surname: Castle fullname: Castle, Stephanie email: stcastle@ucdavis.edu organization: University of California Davis – sequence: 2 givenname: Eliška surname: Rejmánková fullname: Rejmánková, Eliška organization: University of California Davis – sequence: 3 givenname: Janet surname: Foley fullname: Foley, Janet organization: University of California Davis – sequence: 4 givenname: Steve surname: Parmenter fullname: Parmenter, Steve organization: California Department of Fish and Wildlife |
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| SubjectTerms | Amargosa vole Aquatic ecosystems Aquatic plants Arid regions arid zones Blysmus Decay Decay rate Decomposition ecological resilience Ecosystem degradation Ecosystem recovery Ecosystem resilience Ecosystem restoration Ecosystems endangered species Endemic species Environmental restoration Flooded soils Germination Greenhouse effect greenhouse experimentation Greenhouses Groundwater table habitats Hydrologic regime Hydrology Litter litter decay litter decomposition Litter removal Litters (births) marsh Marshes Microtus californicus Moisture Mojave Mojave Desert Plant growth plant litter Regeneration Regeneration (biological) Removal Resilience Restoration strategies Revisions Schoenoplectus americanus Seed banks Seedlings Seeds Soil Soil conditions soil quality Strategic management streams voles water content Water levels Water table Wetlands |
| Title | Hydrologic alterations impact plant litter decay rate and ecosystem resilience in Mojave wetlands |
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