Related references
Note: Only part of the references are listed.Rapid microbial community evolution in initial Carex litter decomposition stages in Bayinbuluk alpine wetland during the freeze-thaw period
Mo Chen et al.
ECOLOGICAL INDICATORS (2021)
Nutrient effects on aquatic litter decomposition of free-floating plants are species dependent
Yao-Bin Song et al.
GLOBAL ECOLOGY AND CONSERVATION (2021)
How do droppings of wintering waterbird accelerate decomposition of Carex cinerascens Kukenth litter in seasonal floodplain Ramsar Site?
Quanjun Zhang et al.
WETLANDS ECOLOGY AND MANAGEMENT (2021)
The initial mass of residue can regulate the impact of Phragmites australis decomposition on water quality: a case study of a mesocosm experiment in a wetland of North China
Ce Xu et al.
JOURNAL OF FRESHWATER ECOLOGY (2021)
Leaf Nutrients and Macroinvertebrates Control Litter Mixing Effects on Decomposition in Temperate Streams
Mathieu Santonja et al.
ECOSYSTEMS (2020)
Evidence for positive priming of leaf litter decomposition by contact with eutrophic pond sediments
Kenneth Fortino et al.
HYDROBIOLOGIA (2020)
Species traits and decomposability predict water quality changes during litter submergence
Xu Pan et al.
SCIENCE OF THE TOTAL ENVIRONMENT (2020)
Light and dissolved nutrients mediate recalcitrant organic matter decomposition via microbial priming in experimental streams
Brooke Howard-Parker et al.
FRESHWATER BIOLOGY (2020)
Selecting submerged macrophyte species for replanting in Mediterranean eutrophic wetlands
Maria A. Rodrigo et al.
GLOBAL ECOLOGY AND CONSERVATION (2020)
Leaf litter diversity and structure of microbial decomposer communities modulate litter decomposition in aquatic systems
Fabienne Santschi et al.
FUNCTIONAL ECOLOGY (2018)
Long-term responses of leaf litter decomposition to temperature, litter quality and litter mixing in plateau wetlands
Guodong Liu et al.
FRESHWATER BIOLOGY (2017)
The interaction between wetland nutrient content and plant quality controls aquatic plant decomposition
C. Grasset et al.
WETLANDS ECOLOGY AND MANAGEMENT (2017)
Decomposition characteristics of three different kinds of aquatic macrophytes and their potential application as carbon resource in constructed wetland
Suqing Wu et al.
ENVIRONMENTAL POLLUTION (2017)
Effect of Phragmites japonicus harvest frequency and timing on dry matter yield and nutritive value
Takashi S. T. Tanaka et al.
JOURNAL OF ENVIRONMENTAL MANAGEMENT (2017)
Inhibition of litter decomposition of two emergent macrophytes by addition of aromatic plant powder
Ya-jun Xie et al.
SCIENTIFIC REPORTS (2017)
Controls on Litter Decomposition of Emergent Macrophyte in Dongting Lake Wetlands
Yajun Xie et al.
ECOSYSTEMS (2017)
Combined effects of submerged macrophytes and aquatic animals on the restoration of a eutrophic water body-A case study of Gonghu Bay, Lake Taihu
Hailong Gao et al.
ECOLOGICAL ENGINEERING (2017)
Understanding the dominant controls on litter decomposition
Mark A. Bradford et al.
JOURNAL OF ECOLOGY (2016)
Potential effects of tidal flat variations on decomposition and nutrient dynamics of Phragmites australis, Suaeda salsa and Suaeda glauca litter in newly created marshes of the Yellow River estuary, China
Zhigao Sun et al.
ECOLOGICAL ENGINEERING (2016)
Eutrophication triggers contrasting multilevel feedbacks on litter accumulation and decomposition in fens
W. -J. Emsens et al.
ECOLOGY (2016)
Decomposition of submerged plant litter in a Mediterranean reservoir: A microcosm study
Giuliano Bonanomi et al.
AQUATIC BOTANY (2015)
Decomposition of Suaeda salsa and Phragmites australis in the degraded wetland of Shaohai: Species and tissue difference implications on ecosystem restoration
P. Fan et al.
JOURNAL OF SOIL AND WATER CONSERVATION (2015)
Decomposition of macrophytes in a shallow subtropical lake
Cristiane Carvalho et al.
LIMNOLOGICA (2015)
Consequences of biodiversity loss for litter decomposition across biomes
I. Tanya Handa et al.
NATURE (2014)
Decomposition dynamics of Phragmites australis litter in Lake Burullus, Egypt
Ebrahem M. Eid et al.
PLANT SPECIES BIOLOGY (2014)
Salinity Effects on Phragmites Decomposition Dynamics Among the Hudson River's Freshwater Tidal Wetlands
Craig T. Connolly et al.
WETLANDS (2014)
Decomposition of Phragmites australis litter retarded by invasive Solidago canadensis in mixtures: an antagonistic non-additive effect
Ling Zhang et al.
SCIENTIFIC REPORTS (2014)
Herbiciding Phragmites australis: effects on litter decomposition, microbial biomass, and macroinvertebrate communities
Emmalisa Kennedy et al.
FUNDAMENTAL AND APPLIED LIMNOLOGY (2012)
Detritus Quality Controls Macrophyte Decomposition under Different Nutrient Concentrations in a Eutrophic Shallow Lake, North China
Xia Li et al.
PLOS ONE (2012)
A shallow lake remediation regime with Phragmites australis: Incorporating nutrient removal and water evapotranspiration
Ying Zhao et al.
WATER RESEARCH (2012)
Does Prescribed Fire Benefit Wetland Vegetation?
Conception Flores et al.
WETLANDS (2011)
Decomposition Trends of Five Plant Litter Types in Mitigated and Reference Wetlands in West Virginia, USA
R. Tristan Gingerich et al.
WETLANDS (2011)
Phosphorus Transformations during Decomposition of Wetland Macrophytes
Alexander W. Cheesman et al.
ENVIRONMENTAL SCIENCE & TECHNOLOGY (2010)
Ecology and Impacts of the Large-Statured Invasive Grasses Arundo donax and Phragmites australis in North America
Adam M. Lambert et al.
INVASIVE PLANT SCIENCE AND MANAGEMENT (2010)
Decomposition of Typha angustifolia and Phragmites australis in the littoral zone of a shallow lake
Edit Agoston-Szabo et al.
BIOLOGIA (2008)
Carbon isotope dynamics during leaf litter decomposition with reference to lignin fractions
Takashi Osono et al.
ECOLOGICAL RESEARCH (2008)
Wetland macrophyte decomposition under different nutrient conditions:: Relationships between decomposition rate, enzyme activities and microbial biomass
Eliska Rejmankova et al.
SOIL BIOLOGY & BIOCHEMISTRY (2007)
Wetland plant decomposition under different nutrient conditions:: what is more important, litter quality or site quality?
Eliska Rejmankova et al.
BIOGEOCHEMISTRY (2006)
Share Paper
