Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions

Majdi N, Boiche A, Traunspurger W, Lecerf A (2014)
Journal of Animal Ecology 83: 953-962.

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Zeitschriftenaufsatz | Veröffentlicht | Englisch
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Journal of Animal Ecology
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83
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953-962
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Majdi N, Boiche A, Traunspurger W, Lecerf A. Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions. Journal of Animal Ecology. 2014;83:953-962.
Majdi, N., Boiche, A., Traunspurger, W., & Lecerf, A. (2014). Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions. Journal of Animal Ecology, 83, 953-962. doi:10.1111/1365-2656.12189
Majdi, N., Boiche, A., Traunspurger, W., and Lecerf, A. (2014). Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions. Journal of Animal Ecology 83, 953-962.
Majdi, N., et al., 2014. Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions. Journal of Animal Ecology, 83, p 953-962.
N. Majdi, et al., “Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions”, Journal of Animal Ecology, vol. 83, 2014, pp. 953-962.
Majdi, N., Boiche, A., Traunspurger, W., Lecerf, A.: Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions. Journal of Animal Ecology. 83, 953-962 (2014).
Majdi, Nabil, Boiche, Anatole, Traunspurger, Walter, and Lecerf, Antoine. “Predator effects on a detritus-based food web are primarily mediated by nontrophic interactions”. Journal of Animal Ecology 83 (2014): 953-962.

6 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Warmer night-time temperature promotes microbial heterotrophic activity and modifies stream sediment community.
Freixa A, Acuña V, Casellas M, Pecheva S, Romaní AM., Glob Chang Biol 23(9), 2017
PMID: 28208235
Direct and indirect trophic effects of predator depletion on basal trophic levels.
Chen H, Hagerty S, Crotty SM, Bertness MD., Ecology 97(2), 2016
PMID: 27145609
Free-living nematodes in the freshwater food web: a review.
Majdi N, Traunspurger W., J Nematol 47(1), 2015
PMID: 25861114

62 References

Daten bereitgestellt von Europe PubMed Central.

The realized food niches of three species of stream-dwelling triclads (Turbellaria)
Armitage, Freshwater Biology 24(), 1990

Barlöcher, 1992

Boulton, 2002
Short and long-term consequences of grouping and group foraging in the free-living flatworm Dugesia tigrina
Cash, Journal of Animal Ecology 62(), 1993
Benthic algae stimulate leaf litter decomposition in detritus-based headwater streams: a case of aquatic priming effect?
Danger M, Cornut J, Chauvet E, Chavez P, Elger A, Lecerf A., Ecology 94(7), 2013
PMID: 23951720
Habitat loss, trophic collapse, and the decline of ecosystem services.
Dobson A, Lodge D, Alder J, Cumming GS, Keymer J, McGlade J, Mooney H, Rusak JA, Sala O, Wolters V, Wall D, Winfree R, Xenopoulos MA., Ecology 87(8), 2006
PMID: 16937628
Treatment effects in a stream fish enclosure experiment: influence of predation rate and prey movements
Englund, Oikos 77(), 1996

Esposito-Vinzi, 2010
Trophic downgrading of planet Earth.
Estes JA, Terborgh J, Brashares JS, Power ME, Berger J, Bond WJ, Carpenter SR, Essington TE, Holt RD, Jackson JB, Marquis RJ, Oksanen L, Oksanen T, Paine RT, Pikitch EK, Ripple WJ, Sandin SA, Scheffer M, Schoener TW, Shurin JB, Sinclair AR, Soule ME, Virtanen R, Wardle DA., Science 333(6040), 2011
PMID: 21764740
Contribution of microbial and invertebrate communities to leaf litter colonization in a Mediterranean stream
Gaudes, Journal of the North American Benthological Society 28(), 2009
Importance of stream microfungi in controlling breakdown rates of leaf litter
Gessner, Ecology 75(), 1994
Diversity meets decomposition.
Gessner MO, Swan CM, Dang CK, McKie BG, Bardgett RD, Wall DH, Hattenschwiler S., Trends Ecol. Evol. (Amst.) 25(6), 2010
PMID: 20189677

Giere, 2009
Indirect effects of predatory trout on organic matter processing in detritus-based food webs
Greig, Oikos 112(), 2006
Priming effect: bridging the gap between terrestrial and aquatic ecology.
Guenet B, Danger M, Abbadie L, Lacroix G., Ecology 91(10), 2010
PMID: 21058546
Fear of predation slows plant-litter decomposition.
Hawlena D, Strickland MS, Bradford MA, Schmitz OJ., Science 336(6087), 2012
PMID: 22700928
Potential microbial utilization rates of sublittoral gastropod mucus trails
Herndl, Limnology and Oceanography 34(), 1989
Studies on feeding, digestion, and food storage in free-living flatworms (Platyhelminthes: Turbellaria)
Jennings, The Biological Bulletin 112(), 1957
Habitat structure alters top-down control in litter communities.
Kalinkat G, Brose U, Rall BC., Oecologia 172(3), 2012
PMID: 23188055
More than a meal… integrating non-feeding interactions into food webs.
Kefi S, Berlow EL, Wieters EA, Navarrete SA, Petchey OL, Wood SA, Boit A, Joppa LN, Lafferty KD, Williams RJ, Martinez ND, Menge BA, Blanchette CA, Iles AC, Brose U., Ecol. Lett. 15(4), 2012
PMID: 22313549
Interactions in stream leaf packs: effects of a stonefly predator on detritivores and organic matter processing
Malmqvist, Oikos 66(), 1993
Characterization of the proteins present in the mucus of the flatworm Artioposthia triangulata (Dendy)
McGee, Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 119(), 1998
Feeding and reproduction of the planarian, Dugesia dorotocephala (Woodworth), in the presence of Culex peus Speiser
Medved, Environmental Entomology 3(), 1974
Ergosterol as a measure of living fungal biomass: persistence in environmental samples after fungal death.
Mille-Lindblom C, von Wachenfeldt E, Tranvik LJ., J. Microbiol. Methods 59(2), 2004
PMID: 15369861
Do nematode mucus secretions affect bacterial growth?
Moens, Aquatic Microbial Ecology 40(), 2005
Detritus, trophic dynamics and biodiversity
Moore, Ecology Letters 7(), 2004
Population regulation in theory and practice
Murdoch, Ecology 75(), 1994
Predators accelerate nutrient cycling in a bromeliad ecosystem.
Ngai JT, Srivastava DS., Science 314(5801), 2006
PMID: 17095695

AUTHOR UNKNOWN, 0
The evolution of cooperative hunting
Packer, American Naturalist 132(), 1988
Incorporating lotic meiofauna into our understanding of faunal transport processes
Palmer, Limnology and Oceanography 37(), 1992
Scared to death? The effects of intimidation and consumption in predator-prey interactions
Preisser, Ecology 86(), 2005

R, 2012
The food of four species of lake-dwelling triclads
Reynoldson, Journal of Animal Ecology 32(), 1963
Symbiotic relations of sediment-agglutinating nematodes and bacteria in detrital habitats: the enzyme-sharing concept
Riemann, Marine Ecology 23(), 2002
Coarse particulate organic matter: a habitat or food resource for the meiofaunal community of a recently formed stream?
Robertson, Archiv für Hydrobiologie 152(), 2001
Interactions of bacteria and fungi on decomposing litter: differential extracellular enzyme activities.
Romani AM, Fischer H, Mille-Lindblom C, Tranvik LJ., Ecology 87(10), 2006
PMID: 17089664

AUTHOR UNKNOWN, 0
Fine sediment on leaves: shredder removal of sediment does not enhance fungal colonisation
Sanpera-Calbet, Aquatic Sciences 74(), 2012
The importance of meiofauna in food webs: evidence from an acid stream
Schmid-Araya, Ecology 83(), 2002
Predator control of ecosystem nutrient dynamics.
Schmitz OJ, Hawlena D, Trussell GC., Ecol. Lett. 13(10), 2010
PMID: 20602626
Trophic cascades: the primacy of trait-mediated indirect interactions
Schmitz, Ecology Letters 7(), 2004
Identification and characterization of a new family of C-type lectin-like genes from planaria Girardia tigrina.
Shagin DA, Barsova EV, Bogdanova E, Britanova OV, Gurskaya N, Lukyanov KA, Matz MV, Punkova NI, Usman NY, Kopantzev EP, Salo E, Lukyanov SA., Glycobiology 12(8), 2002
PMID: 12145187
Geomorphological implications of engineering bed sediments by lotic animals
Statzner, Geomorphology 157(), 2012
Community metabolism in a temperate cold spring
Teal, Ecological Monographs 27(), 1957

Terborgh, 2010
Bathymetric, seasonal and vertical distribution of feeding-types of nematodes in an oligotrophic lake
Traunspurger, Vie et Milieu 47(), 1997
Multiple trophic levels of a forest stream linked to terrestrial litter inputs
Wallace, Science 277(), 1997
Ecological linkages between aboveground and belowground biota.
Wardle DA, Bardgett RD, Klironomos JN, Setala H, van der Putten WH, Wall DH., Science 304(5677), 2004
PMID: 15192218
A review of trait-mediated indirect interactions in ecological communities
Werner, Ecology 84(), 2003
Biological Effects of Fine Sediment in the Lotic Environment
WOOD PJ, ARMITAGE PD., Environ Manage 21(2), 1997
PMID: 9008071
Trophic trickles and cascades in a complex food web: impacts of a keystone predator on stream community structure and ecosystem processes
Woodward, Oikos 117(), 2008
Stoneflies as ecological engineers-hungry predators reduce fine sediments in stream beds
Zanetell, Freshwater Biology 36(), 1996
Detritus processing, ecosystem engineering and benthic diversity: a test of predator-omnivore interference
Zhang, Journal of Animal Ecology 73(), 2004
Predatory beetles facilitate plant growth by driving earthworms to lower soil layers.
Zhao C, Griffin JN, Wu X, Sun S., J Anim Ecol 82(4), 2013
PMID: 23419174

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