标题
Synergistic effects: a common theme in mixed‐species litter decomposition
作者
关键词
-
出版物
NEW PHYTOLOGIST
Volume -, Issue -, Pages -
出版商
Wiley
发表日期
2020-03-26
DOI
10.1111/nph.16556
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Non-additive effects of leaf and twig mixtures from different tree species on experimental litter-bed flammability
- (2019) Weiwei Zhao et al. PLANT AND SOIL
- One plus one is greater than two: mixing litter types accelerates decomposition of low-quality alpine dwarf shrub litter
- (2019) Michael Steinwandter et al. PLANT AND SOIL
- Effects of Predominant Tree Species Mixing on Lignin and Cellulose Degradation during Leaf Litter Decomposition in the Three Gorges Reservoir, China
- (2019) He et al. Forests
- Functionally or phylogenetically distinct neighbours turn antagonism among decomposing litter species into synergy
- (2018) Lou Barbe et al. JOURNAL OF ECOLOGY
- Litter species richness and composition effects on fungal richness and community structure in decomposing foliar and root litter
- (2018) Eveli Otsing et al. SOIL BIOLOGY & BIOCHEMISTRY
- Litter decomposition in peatlands is promoted by mixed plants
- (2017) Fabien Leroy et al. JOURNAL OF SOILS AND SEDIMENTS
- Mixing of Aleppo pine and Holm oak litter increases biochemical diversity and alleviates N limitations of microbial activity
- (2017) René Guénon et al. SOIL BIOLOGY & BIOCHEMISTRY
- Litter quality mediated nitrogen effect on plant litter decomposition regardless of soil fauna presence
- (2016) Weidong Zhang et al. ECOLOGY
- Linking the green and brown worlds through nonconsumptive predator effects
- (2016) Michael I. Sitvarin et al. OIKOS
- Effect of Litter Quality on Leaf-Litter Decomposition in the Context of Home-Field Advantage and Non-Additive Effects in Temperate Forests in China
- (2016) Jing Gao et al. POLISH JOURNAL OF ENVIRONMENTAL STUDIES
- Nitrogen dynamics within and between decomposing leaves, bark and branches in Eucalyptus planted forests
- (2016) Antoine Versini et al. SOIL BIOLOGY & BIOCHEMISTRY
- Mixing litter from deciduous and evergreen trees enhances decomposition in a subtropical karst forest in southwestern China
- (2016) Changcheng Liu et al. SOIL BIOLOGY & BIOCHEMISTRY
- Water, Rather than Temperature, Dominantly Impacts How Soil Fauna Affect Dissolved Carbon and Nitrogen Release from Fresh Litter during Early Litter Decomposition
- (2016) Shu Liao et al. Forests
- Understanding the dominant controls on litter decomposition
- (2015) Mark A. Bradford et al. JOURNAL OF ECOLOGY
- Predicting soil fauna effect on plant litter decomposition by using boosted regression trees
- (2015) Weidong Zhang et al. SOIL BIOLOGY & BIOCHEMISTRY
- Biodiversity and litter decomposition: a case study in a Mediterranean stream
- (2015) Jérémy Jabiol et al. Freshwater Science
- Biodiversity and litter decomposition: a case study in a Mediterranean stream
- (2015) Jérémy Jabiol et al. Freshwater Science
- Biodiversity and Ecosystem Functioning
- (2014) David Tilman et al. Annual Review of Ecology Evolution and Systematics
- Global-scale patterns of assemblage structure of soil nematodes in relation to climate and ecosystem properties
- (2014) Uffe N. Nielsen et al. GLOBAL ECOLOGY AND BIOGEOGRAPHY
- Decomposition patterns for foliar litter – A theory for influencing factors
- (2014) Björn Berg SOIL BIOLOGY & BIOCHEMISTRY
- Leaf Litter Mixtures Alter Microbial Community Development: Mechanisms for Non-Additive Effects in Litter Decomposition
- (2013) Samantha K. Chapman et al. PLoS One
- A global analysis of soil microbial biomass carbon, nitrogen and phosphorus in terrestrial ecosystems
- (2012) Xiaofeng Xu et al. GLOBAL ECOLOGY AND BIOGEOGRAPHY
- Who is who in litter decomposition? Metaproteomics reveals major microbial players and their biogeochemical functions
- (2012) Thomas Schneider et al. ISME Journal
- Mixtures with grass litter may hasten shrub litter decomposition after shrub encroachment into mountain grasslands
- (2012) Francesc Montané et al. PLANT AND SOIL
- The effects of leaf litter evenness on decomposition depend on which plant functional group is dominant
- (2012) Daijiang Li et al. PLANT AND SOIL
- Carbon quality rather than stoichiometry controls litter decomposition in a tropical rain forest
- (2010) Stephan Hättenschwiler et al. JOURNAL OF ECOLOGY
- Litter evenness influences short-term peatland decomposition processes
- (2010) Susan E. Ward et al. OECOLOGIA
- Diversity meets decomposition
- (2010) Mark O. Gessner et al. TRENDS IN ECOLOGY & EVOLUTION
- Leaf litter species evenness influences nonadditive breakdown in a headwater stream
- (2009) C. M. Swan et al. ECOLOGY
- Global patterns in belowground communities
- (2009) Noah Fierer et al. ECOLOGY LETTERS
- Leaf diversity influences in-stream litter decomposition through effects on shredders
- (2009) ISIS SANPERA-CALBET et al. FRESHWATER BIOLOGY
- Amounts of carbon mineralised and leached as DOC during decomposition of Norway spruce needles and fine roots
- (2009) Karna Hansson et al. SOIL BIOLOGY & BIOCHEMISTRY
- CONSEQUENCES OF DOMINANCE: A REVIEW OF EVENNESS EFFECTS ON LOCAL AND REGIONAL ECOSYSTEM PROCESSES
- (2008) Helmut Hillebrand et al. ECOLOGY
- Plant species traits are the predominant control on litter decomposition rates within biomes worldwide
- (2008) William K. Cornwell et al. ECOLOGY LETTERS
- Consequences of non-random species loss for decomposition dynamics: experimental evidence for additive and non-additive effects
- (2008) Becky A. Ball et al. JOURNAL OF ECOLOGY
- Rates of litter decomposition in terrestrial ecosystems: global patterns and controlling factors
- (2008) Deqiang Zhang et al. Journal of Plant Ecology
- Particle size alters litter diversity effects on decomposition
- (2008) Alexei V. Tiunov SOIL BIOLOGY & BIOCHEMISTRY
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now