Articles 2023

5. Duchene O., Capowiez Y., Vian J.-F., Ducasse V., Cadiergues A., Lhuillery T., Peigné J. Conservation tillage influences soil structure, earthworm communities and wheat root traits in a long-term organic cropping experiment. Plant and Soil (in press)
4. Gardarin A., Hedde M., Teulé J.-M., Wetzel G., Capowiez Y. (2023) Assessing ground predation by invertebrates in crops: camera observations clarify the relevance of aphid cards and coleopteran sentinel prey. Basic and Applied Ecology (in press)
3. Ducasse V., Watteau F., Kowalewski I., Ravelojaona, H., Capowiez Y., Peigné J. (2023)  The amending potential of vermicompost, compost and digestate from urban biowaste: evaluation using biochemical, Rock-Eval® thermal analyses and transmission electronic microscopy. Bioresource Technology Reports, 101405

2. Vidal A., Blouin M., Lubbers I., Capowiez Y., Sanchez-Hernandez J.-C., Calogiuri T., van Groenigen J.W. (2023) The role of earthworms in agronomy: consensus, novel insights and remaining challenges. Advances in Agronomy (in press)
1. Jouni F., Sanchez-Hernandez J.-C., Brouchoud C., Capowiez Y., Rault M. Role of soil texture and earthworm casts on the restoration of soil enzyme activities after exposure to an organophosphorus insecticide. Applied Soil Ecology (in press)

Articles 2022

[Vulgarisation] https://www.france.tv/france-4/c-est-toujours-pas-sorcier/saison-5/4293415-les-vers-de-terre-ingenieurs-du-sol.html

11. Pham QV, Nguyen TT, Lam DH, Capowiez Y, Nguyen AD, Jouquet P, Tran TM, Bottinelli N (2022) Using morpho-anatomical traits to predict the effect of earthworms on soil water infiltration. Geoderma (in press)

10. Le Mer G., Bottinelli N., Dignac M-F., Capowiez Y., Jouquet P., Mazurier A., Baudin F., Caner L., Rumpel C. (2022) Exploring the control of earthworm cast macro- and micro-scale features on soil organic carbon mineralisation across species and ecological categories. Geoderma (in press)

9. Ducasse V., Capowiez Y., Peigné J. (2022) Vermicomposting of municipal solid waste as a possible lever for the development of sustainable agriculture – a review. Agronomy for Sustainable Development (in press).

8. Hedde M., Blight O., Briones M.J., Bonfanti J., Brendan M., San I.C., Clause J., Cortet J., Decaëns T., Erktan A., Gérard S., Goulpeau A., Ianelli M., Joimel-Boulanger S., Jouquet P., Le Guillarme N., Marsden C., Martinez Almoya C., Mulder C., Perrin W., Pétillon J., Pey B., Potapov A., Si-moussi S., Thuillier W., Trap J., Vergnes A., Zaitsev A., Capowiez Y. (2022) A common framework for developing robust soil fauna classifications. Geoderma 426, 116073

7. Arrazola-Vasquez E., Larsbo M., Capowiez Y., Taylor A., Ieskog D., Keller T. (2022) Earthworm burrowing modes and rates depend on earthworm species and mechanical resistance. Applied Soil Ecology 178, 104568

6. Gergs A., Rakel K., Bussen D., Capowiez Y., Ernst G., Roeben V. (2022) Integrating earthworm movement and life history through dynamic energy budgets. Conservation Physiology (in press)

5. Coq S., Ganault P., Le mer G., Nahmani J., Capowiez Y., Dignac M.-F., Rumpel C., Joly F.-X. (2022) Faeces traits as unifying predictors of detritivore effects on organic matter turnover. Geoderma 422, 115940

4. Gilibert O., Gerino M., Costa D.-T., Sauvage S., Julien F., Capowiez Y., Orange D. (2022) Density effect of Eisenia sp. epigeic earthworms on the hydraulic
conductivity of sand filters for wastewater treatment. Water 14, 1048

3. Michel E., Néel M.-C., Capowiez Y., Sammartino S., Lafolie F., Renault P., Pelosi C. (2022) Modeling bioturbation in soils - are we burrowing in the right direction? Water Research 216, 118342

2. Capowiez Y., Decaëns T., Hedde M., Marsden C., Jouquet P., Marchan D., Nahmani J., Pelosi C., Bottinelli N. (2022) Faut-il continuer à utiliser les catégories écologiques de vers de terre définies il y a 50 ans par Marcel Bouché - Une vision historique et critique. Etude et Gestion des Sols 29, 51-57. (https://www.afes.fr/publications/revue-etude-etgestion-des-sols/volume-29/)

1. Baveye P., Balseiro-Romero M., Bottinelli N., Briones M., Capowiez Y., Garnier P., Kravchenko A., Otten W., Pot V., Schlüter S., Vögel H.-J. (2022) Lessons from a landmark 1991 article on soil structure: distinct precedence of non-destructive assessment and benefits of fresh perspectives in soil research. Soil Research (in press) doi:10.1071/SR21268

Articles 2021

18. D’Hervilly C, Bertrand I, Capowiez Y, Béral C, Delapré-Cosset L, Marsden C. (2021) Seasonal variations in macrofauna distribution according to the distance from en herbaceous strip in a Mediterranean alley cropping plot. Applied Soil Ecology 170, 104309

17. Moinard V., Redondi C., Etievant V., Savoir A., Duchenne D., Pelosi C., Houot S., Capowiez Y. (2021) Short- and long-term impacts of anaerobic digestate spreading on earthworms in cropped soils Applied Soil Ecology 168, 104149

16. Ducasse V., Darboux F., Auclerc A., Legout A, Ranger J, Capowiez Y. (2021) Can Lumbricus terrestris be released in forest soils degraded by compaction? Preliminary results from laboratory and field experiments. Applied Soil Ecology 168, 104131

15. Sauzet O., Kohler-Milleret R., Fulleman F., Capowiez Y., Boivin P. (2021) Earthworms drill compacted soils but do not decrease their bulk density – a laboratory experiment using two contrasted soils at two different compaction levels. Geoderma 402, 115164

14. Sougueh C, Jouquet P, Maeght J-L, Capowiez Y, Tran TN, Bottinelli N (2021) X-ray tomography analysis of soil biopores structure under wetting and drying cycles. European Journal of Soil Science 72, 2128-2132

13. Capowiez Y, Sammartino S, Keller T, Bottinelli N. (2021) Decreased burrowing activity of endogeic earthworms and effects on water infiltration in response to an increase in soil bulk density. Pedobiologia 85-86, 150728

12. Pelosi C, Bertrand C, Daniele G, Coeurdassier M, Benoit P, Nelieu S, Lafay S, Bretagnolle V, Gaba S, Vulliet E, Fritsch C (2021) Residues of currently used pesticides in soils and earthworms: A silent threat? Agriculture, Ecosystems and Environment 305, 107167

11. D’Hervilly C, Marsden C, Capowiez Y, Béral C, Delapré-Cosset L, Bertrand I (2021) Trees and herbaceous vegetation strips both contribute to changes in soil fertility and soil organism communities in an agroforestry system. Plant and Soil 463, 537-553

10. Phillips HRP, Bach EM, … Capowiez Y, … Cameron EK, Eisenhauer N. (2021) Global data on earthworm abundance, biomass, diversity and corresponding environmental properties. Scientific Data 8, 136 [Data Paper]

9. Pham T, Rumpel C, Capowiez Y, Jouquet P, Pelosi C, Pando A, Aroui Boukbida H, Bottinelli N (2021). Mid-infrared spectroscopy of earthworm bodies to investigate their species belonging and their relationship with the soil they inhabit. Applied Soil Ecology 162, 103894.

8. Capowiez Y, Gilbert F, Valat A, Poggiale JC, Bonzom JM (2021). Depth distribution of soil organic matter and burrowing activity of earthworms - mesocosm study using X-ray tomography and luminophores. Biology and Fertility of Soils 57, 337-346.

7. Le Navenant A, Brouchoud C, Capowiez Y, Suchail S, Rault M. (2021) How lasting are the effects of pesticides on earwigs? A study based on energy metabolism, body weight and morphometry in two generations of Forficula auricularia from apple orchards. Science of the Total Environment 758, 143064

6. Capowiez Y., Lévèque T., Pelosi C., Capowiez L., Mazzia C., Schreck E., Dumat C. (2021) Using the ecosystem engineer concept to test the functional effects of a decrease in earthworm abundance due to an historic metal pollution gradient. Applied Soil Ecology 158, 103816.

5. Köhler H.R., Capowiez Y., Mazzia C., Eckstein H., Kaczmarek N., Bilton M., Burmester J., Capowiez L., Chueca L., Favilli L., Florit Gomilla J., Manganelli G., Mazzuca S., Moreno-Rueda G., Peschke K., Piro A., Quintana Cardona J., Sawallich L., Staikou A., Thomassen H., Triebskorn R. (2021) Experimental simulation of environmental warming selects against pigmented morphs of land snails. Ecology and Evolution 11, 1111-1130.

4. Bottinelli N., Capowiez Y. (2021) Earthworm ecological categories are not functional groups. Biology and Fertility of Soils 57, 329-331 [Position Paper]

3. Ganault P., Delmotte S., Duhamet A., Lextrait G., Capowiez Y. (2021) Earthworms and their possible role in greenhouse gases emissions. Frontiers for young minds (in press)

2. Forbes V., Agatz A., Ashauer R., Butt K., Capowiez Y., Duquesne S., Ernst G., Focks A., Gergs A., Hodson M., Holmstrup M., Johnston A., Meli M., Nickisch D., Pieper S., Rakel K., Reed M., Römbke J., Schäfer R., Thorbek P., Spurgeon D., van den Berg F., van Gestel K., Zorn M., Roeben V. (2021) Mechanistic effect modeling of earthworms in the context of pesticide risk assessment: Synthesis of the FORESEE Workshop. Integrated Environmental Assessment and Management 17, 352-363

1. Le Mer G., Jouquet P., Capowiez Y., Maeght J.-L., Minh Tran T., Can T., Bottinelli N. (2021) Age matters: dynamics of casts and burrows made by the anecic earthworm Amynthas khami and their effects on soil water transfer. Geoderma 382, 114709

Articles 2020

16. Schlüter S., Koestel J., Sammartino S. 2020. Exploring the relationships between soil structure and soil functions via pore-scale imaging. Geoderma 380, 114370

15. Lissy A.-S., Sammartino S., Ruy S. 2020. Can structure data obtained from CT images substitute for parameters of a prefenrential flow model, Geoderma 380, 114463

14. Aubert M., Banas D., Bernier N., Blouin M., Bolzonella C., Bonneval K., Brun J.J., Fritz I., Giannini R., Hager H., Katzensteiner K., Lowenfels J., Menta C., Micheloni C., Paoletti M.G., Pelosi C., Piccolo A., Ponge J.F., Singh S.K., Tassinato E., Teo G., Tomasi M., Zanella A. 2020.
Organic Food “Yes”, Organic Food “No” A Discussion between Specialists with the Italian Parliament in the Fray.
Austin Anthropology 4(1): 1012.
https://doi.org/10.26420/austinanthropol.2020.1012 ------------------------->  https://hal.inrae.fr/hal-02499526

13. Amossé J., Bart S., Brulle F., Tebby C., Beaudouin R., Nélieu S., Lamy I., Péry A.R.R., Pelosi C.
A two years field experiment to assess the impact of two fungicides on earthworm communities and their recovery.
Ecotoxicology and Environmental Safety,
https://doi.org/10.1016/j.ecoenv.2020.110979------------------------->  https://hal.inrae.fr/hal-02937897

12. Bart S., Pelosi C., S. Nélieu, I. Lamy, Péry A.R.R., 2020.
An energy-based model to analyse growth data of earthworms exposed to two fungicides.
Environmental Science and Pollution Research 27, 741–750.
https://doi.org/10.1007/s11356-019-06985-z

11. Bottinelli N., Hedde M., Jouquet P., Capowiez Y. (2020)
An explicit definition of earthworm ecological categories - Marcel Bouché’s triangle revisited.
Geoderma 372:114361
https://doi.org/10.1016/j.geoderma.2020.114361

10. Dib H., Siegwart M., Capowiez Y.  (2020)
Spiders (Arachnida: Araneae) in organic orchards in south-eastern France.
Canadian Entomologist 152, 224-236.
https://doi.org/10.4039/tce.2020.5

9. Jouni F., Sanchez-Hernandez J.C., Capowiez Y., Rault M. (2021)
Elucidating pesticide sensitivity of two endogeic earthworm species through the interplay between esterases and glutathione S-transferases.
Chemosphere 262, 127724
https://doi.org/10.1016/j.chemosphere.2020.127724

8. Laurent C., Bravin M.N., Crouzet O., Pelosi C., Tillard E., Lecomte P., Lamy I., 2020.
Increased soil pH and dissolved organic matter after a decade of organic fertilizer application mitigates copper and zinc availability despite contamination.
Science of the Total Environment. 709, 135927.
https://doi.org/10.1016/j.scitotenv.2019.135927 -------------------------> https://hal.inrae.fr/hal-02634371

7. Marsden C., Martin-Chave A., Cortet J., Hedde M., Capowiez Y. (2020)
How agroforestry systems influence soil fauna and their functions - a review.
Plant and Soil 453, 29-44
https://doi.org/10.1007/s11104-019-04322-4------------------------->https://hal.inrae.fr/hal-02620104

6. Mazzia C., Capowiez Y., Marliac G., Josselin D., Pasquet A. (2020)
Effect of spinosad application in orchards on the populations of A. diadematus and its web construction behaviour.
Ecotoxicology 29, 389:397
https://doi.org/10.1007/s10646-020-02179-3

5. Nélieu S., Delarue G., Amossé J., Bart S., Péry A.R.R., Pelosi C.
Soil dissipation and bioavailability to earthworms of two fungicides under laboratory and field conditions.
Environmental Science and Pollution Research.
https://doi.org/10.1007/s11356-020-10222-3------------------------->https://hal.inrae.fr/hal-02937907

4. Pelosi C., Baudry E., Schmidt O.
Comparison of the mustard oil and electrical methods for sampling earthworm communities in rural and urban soils.
Urban Ecosystems
https://doi.org/10.1007/s11252-020-01023-0

3. Pelosi C., Boros G., Schmidt O., van Oort F.,
Soil Oligochaeta communities after 9 decades of continuous fertilization in a bare fallow experiment.
Soil Organisms, 92(2) 129–142.
https://doi.org/10.25674/so92iss2pp129

2. Roeben V., Oberdoerster S., Capowiez Y., Ernst G., Preuss T.G., Gergs A., Oberdoerster C. (2020)
Towards a spatiotemporally explicit toxicokinetic-toxicodynamic model for earthworm toxicity.
Science of the Total Environment 722, 137673
https://doi.org/10.1016/j.scitotenv.2020.137673

1. Sanchez-Hernandez J.C., Capowiez Y., Ro K. (2020)
Potential eco-friendly strategy for remediating microplastic pollution in agricultural soils using earthworms.
ACS Sustainable Chemistry and Engineering 8, 4292-4316