Context dependence in foraging behaviour of Achillea millefolium

[1]  G. McNickle,et al.  The Behavioral Ecology of Nutrient Foraging by Plants , 2011 .

[2]  G. Fernandes,et al.  Effects of generalist and specialist parasitic plants (Loranthaceae) on the fluctuating asymmetry patterns of ruprestrian host plants , 2011 .

[3]  D. Gordon The fusion of behavioral ecology and ecology , 2011 .

[4]  L. Dill,et al.  Applying Behavioral-Ecological Theory to Plant Defense: Light-Dependent Movement in Mimosa pudica Suggests a Trade-Off between Predation Risk and Energetic Reward , 2011, The American Naturalist.

[5]  A. Hodge,et al.  Nutritional ecology of arbuscular mycorrhizal fungi , 2010 .

[6]  J. Bever,et al.  Rooting theories of plant community ecology in microbial interactions. , 2010, Trends in ecology & evolution.

[7]  G. McNickle,et al.  Plants Integrate Information About Nutrients and Neighbors , 2010, Science.

[8]  Jason D. Hoeksema,et al.  A meta-analysis of context-dependency in plant response to inoculation with mycorrhizal fungi. , 2010, Ecology letters.

[9]  B. Forde Is it good noise? The role of developmental instability in the shaping of a root system. , 2009, Journal of experimental botany.

[10]  G. McNickle,et al.  Focusing the metaphor: plant root foraging behaviour. , 2009, Trends in ecology & evolution.

[11]  G. McNickle,et al.  Plant root growth and the marginal value theorem , 2009, Proceedings of the National Academy of Sciences.

[12]  Mark C. Brundrett Mycorrhizal associations and other means of nutrition of vascular plants: understanding the global diversity of host plants by resolving conflicting information and developing reliable means of diagnosis , 2009, Plant and Soil.

[13]  R. Karban Plant behaviour and communication. , 2008, Ecology letters.

[14]  M. Rillig,et al.  Spatial characterization of arbuscular mycorrhizal fungal molecular diversity at the submetre scale in a temperate grassland. , 2008, FEMS microbiology ecology.

[15]  T. Rajaniemi Root foraging traits and competitive ability in heterogeneous soils , 2007, Oecologia.

[16]  H. Schnyder,et al.  Arbuscular mycorrhizal colonization on carbon economy in perennial ryegrass: quantification by 13CO2/12CO2 steady-state labelling and gas exchange. , 2006, The New phytologist.

[17]  H. de Kroon,et al.  Root foraging theory put to the test. , 2006, Trends in ecology & evolution.

[18]  Robert H. Jones,et al.  Patterns in soil fertility and root herbivory interact to influence fine-root dynamics. , 2006, Ecology.

[19]  J. Cahill,et al.  Patch–background contrast and patch density have limited effects on root proliferation and plant performance in Abutilon theophrasti , 2004 .

[20]  Burt P. Kotler,et al.  Hazardous duty pay and the foraging cost of predation , 2004 .

[21]  Melanie D. Jones,et al.  Exploring functional definitions of mycorrhizas: Are mycorrhizas always mutualisms? , 2004 .

[22]  Angela Hodge,et al.  The plastic plant: root responses to heterogeneous supplies of nutrients , 2004 .

[23]  J. Klironomos,et al.  VARIATION IN PLANT RESPONSE TO NATIVE AND EXOTIC ARBUSCULAR MYCORRHIZAL FUNGI , 2003 .

[24]  R. Ryel,et al.  Spatial variability of arbuscular mycorrhizal fungal spores in two natural plant communities , 2003, Plant and Soil.

[25]  V. Allison Nutrients, arbuscular mycorrhizas and competition interact to influence seed production and germination success in Achillea millefolium , 2002 .

[26]  M. Hutchings,et al.  Root system size and precision in nutrient foraging: responses to spatial pattern of nutrient supply in six herbaceous species , 2001 .

[27]  J. Krause,et al.  Effects of parasites on fish behaviour: a review and evolutionary perspective , 2000, Reviews in Fish Biology and Fisheries.

[28]  A. Packer,et al.  Soil pathogens and spatial patterns of seedling mortality in a temperate tree , 2000, Nature.

[29]  P. Šmilauer,et al.  Effect of AM symbiosis exclusion on grassland community composition , 2000, Folia Geobotanica.

[30]  A. Hodge,et al.  An arbuscular mycorrhizal inoculum enhances root proliferation in, but not nitrogen capture from, nutrient-rich patches in soil. , 2000, The New phytologist.

[31]  J. Koricheva,et al.  Covariation of fluctuating asymmetry, herbivory and chemistry during birch leaf expansion , 2000, Oecologia.

[32]  M. Rillig,et al.  Designing belowground field experiments with the help of semi-variance and power analyses , 1999 .

[33]  Alastair H. Fitter,et al.  Temporal and spatial variation in soil resources in a deciduous woodland , 1999 .

[34]  Peter Stoll,et al.  Plant foraging and dynamic competition between branches of Pinus sylvestris in contrasting light environments , 1998 .

[35]  S. Gleeson,et al.  Root Proliferation and Marginal Patch Value , 1997 .

[36]  J. Graham,et al.  Functioning of mycorrhizal associations along the mutualism–parasitism continuum* , 1997 .

[37]  F. Huntingford,et al.  Parasite infection alters schooling behaviour: deviant positioning of helminth-infected minnows in conspecific groups , 1996, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[38]  A. Palmer,et al.  Waltzing with Asymmetry , 1996 .

[39]  A. Palmer Waltzing with Asymmetry Is fluctuating asymmetry a powerful new tool for biologists or just an alluring new dance step , 1996 .

[40]  M. Caldwell,et al.  Facilitation of plant phosphate acquisition by arbuscular mycotrhizas from enriched soil patches , 1996 .

[41]  M. Caldwell,et al.  Facilitation of plant phosphate acquisition by arbuscular mycorrhizas from enriched soil patches. II. Hyphae exploiting root-free soil , 1996 .

[42]  C. Lively,et al.  The effects of size, reproductive condition, and parasitism on foraging behaviour in a freshwater snail, Potamopyrgus antipodarum , 1996, Animal Behaviour.

[43]  Janice Moore The Behavior of Parasitized AnimalsWhen an ant … is not an ant , 1995 .

[44]  M. Cain Consequences of Foraging in Clonal Plant Species , 1994 .

[45]  R. B. Jackson,et al.  The Scale of Nutrient Heterogeneity Around Individual Plants and Its Quantification with Geostatistics , 1993 .

[46]  C. Kelly Plant Foraging: A Marginal Value Model and Coiling Response in Cuscuta Subinclusa , 1990 .

[47]  Burt P. Kotler,et al.  Driven to distraction: detecting the hidden costs of flea parasitism through foraging behaviour in gerbils. , 2011, Ecology letters.

[48]  T. Lefèvre,et al.  The ecological significance of manipulative parasites. , 2009, Trends in ecology & evolution.

[49]  M. Biondini,et al.  Root morphological plasticity and nitrogen uptake of 59 plant species from the Great Plains grasslands, U.S.A. , 2001 .

[50]  M. Tibbett Roots, foraging and the exploitation of soil nutrient patches: the role of mycorrhizal symbiosis , 2000 .

[51]  C. Augspurger Seed dispersal of the tropical tree, Platypodium elegans, and the escape of its seedlings from fungal pathogens , 1983 .

[52]  W. R. Jenkins,et al.  A rapid centrifugal-flotation technique for separating nematodes from soil. , 1964 .