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== Références générales ==
A & L Canada Laboratories. (2013). [https://www.alcanada.com/pdf/Tech_Bulletins/Compost_Fertilizer_Manure/Levels/141-Salt_Index.pdf ''Fertilizer Salt Index''].
 
Chen, L., et Dick, W.A. (2011). ''[https://fabe.osu.edu/sites/fabe/files/imce/files/Soybean/Gypsum%20Bulletin.pdf Gypsum as an agricultural amendment: General use guidelines]''. Ohio State University Extension.
 
Centre de référence en agriculture et agroalimentaire du Québec (CRAAQ). (2013). [https://www.craaq.qc.ca/Publications-du-CRAAQ/guide-de-reference-en-fertilisation-2e-edition-et-nouveau-chapitre-10/p/PSOL0101-C01 ''Guide de référence en fertilisation''] (2<sup>e</sup> édition).
 
Cordell, D. et White, S. (2011). [https://www.mdpi.com/2071-1050/3/10/2027/htm Clarifying the key issues of a vigorous debate about long-term phosphorus security]. ''Sustainability 3'' (10), 2027-2049.
 
Diver, S. (2002). ''[https://attra.ncat.org/product/notes-on-compost-teas/ Notes on Compost Teas A Supplement to the ATTRA Publication "Compost Teas for Plant Disease Control"]''. National Sustainable Agriculture Information Service (ATTRA).
 
Heckman, J.R. (2009). [https://njaes.rutgers.edu/pubs/publication.php?pid=fs873 ''Boron : Needs of soils and crop in New Jersey''] (Fact Sheet FS873). Rutgers, the state university of New Jersey.


== Références générales ==
Landry, C. (2018, 8 janvier). ''[https://www.mapaq.gouv.qc.ca/SiteCollectionDocuments/Regions/SaguenayLacStJean/5-ChristineLandry-Carbonelabile.pdf Le carbone labile, au cœur d’une matière organique efficace]''. [Conférence]. Colloque Santé des sols.
Chen, L., et W.A. Dick. 2011. ''[https://fabe.osu.edu/sites/fabe/files/imce/files/Soybean/Gypsum%20Bulletin.pdf Gypsum as an agricultural amendment: General use guidelines]''. Ohio State University Extension).


CRAAQ. 2013. ''[https://www.craaq.qc.ca/Publications-du-CRAAQ/guide-de-reference-en-fertilisation-2e-edition-et-nouveau-chapitre-10/p/PSOL0101-C01 Guide de référence en fertilisation]''. 2e édition. 473 p.
Landry, C., Marchand-Roy, M., Mainguy, J. et Paradis, M. (2019). [https://irda.blob.core.windows.net/media/5616/landry-et-al-2019-determination_terrain_du_coefficient_defficacite_azote_et_du_delai_de_liberation_de_lazote_des_fientes_granulees_de_poules_pondeuses_fiche.pdf ''Détermination terrain du coefficient d'efficacité azoté et du délai de libération de l'azote (N) des fientes granulées de poules pondeuses dans les cultures de maïs-grain et avoine'']. Institut de recherche et de développement en agroenvironnement (IRDA).


Cordell, D. et S. White 2011. ''[https://www.mdpi.com/2071-1050/3/10/2027/htm Clarifying the key issues of a vigorous debate about long-term phosphorus security]''. Sustainability 3 (10) : p. 2027-2049.
Majeau, J. A., Hebert, M. et Desforges, J. (2013, mai). [https://www.environnement.gouv.qc.ca/matieres/articles/cendre-poele-bois-201305.pdf Les cendre de poêle à bois: que peut-on en faire?] ''Vecteur environnement'', 43-49.


Diver, S. 2002. ''[https://attra.ncat.org/product/notes-on-compost-teas/ Notes on Compost Teas A Supplement to the ATTRA Publication "Compost Teas for Plant Disease Control"]''. National Sustainable Agriculture Information Service (ATTRA).
Munroe, J. (2018). ''[https://www.ontario.ca/fr/page/manuel-sur-la-fertilite-du-sol Manuel sur la fertilité du sol]''. (3<sup>e</sup> édition; Publication 611F). MAAARO.


Landry, C.M. 2018. ''[https://www.mapaq.gouv.qc.ca/SiteCollectionDocuments/Regions/SaguenayLacStJean/5-ChristineLandry-Carbonelabile.pdf Le carbone labile, au cœur d’une matière organique efficace]''. Conférence. Colloque santé des sols. 8 janvier 2018.
Singleton, P.W. et Tavares, J.W. (1986). [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC239003/pdf/aem00140-0149.pdf Inoculation Response of Legumes in Relation to the Number and Effectiveness of Indigenous Rhizobium Populations]. ''Applied and Environmental Microbiology 51'' (5), 1013-1018.


Landry, C., M. Marchand-Roy, J. Mainguy et M. Paradis. 2019. [https://irda.blob.core.windows.net/media/5616/landry-et-al-2019-determination_terrain_du_coefficient_defficacite_azote_et_du_delai_de_liberation_de_lazote_des_fientes_granulees_de_poules_pondeuses_fiche.pdf ''Détermination terrain du coefficient d'efficacité azoté et du délai de libération de l'azote (N) des fientes granulées de poules pondeuses dans les cultures de maïs-grain et avoine'']. Institut de recherche et de développement en agroenvironnement (IRDA). Projet dans le cadre du programme fédéral-provincial de "Cultivons l’avenir"  14 p.
Sorensen J.N. et Grevsen, K. (2016). [https://www.actahort.org/books/1137/1137_6.htm Strategies for cut-and-carry green manure production]. ''ISHS Acta Horticulturae 1137 : International Symposium on Innovation in Integrated and Organic Horticulture (INNOHORT)''.


Heckman, J.R. 2009. [https://njaes.rutgers.edu/pubs/publication.php?pid=fs873 ''Boron : Needs of soils and crop in New Jersey'']. Fact Sheet FS873. Rutgers, the state university of New Jersey.
Sorensen, J.N. et Thorup-Kristensen, K. (2011). [https://onlinelibrary.wiley.com/doi/abs/10.1002/jpln.200900321 Plant-based fertilizers for organic vegetable production]. ''Journal of Plant Nutrition and Soil Science 174'' (2), 321-332.


Majeau, J. A., M. Hebert et J. Desforges. 2013. [https://www.environnement.gouv.qc.ca/matieres/articles/cendre-poele-bois-201305.pdf ''Les cendre de poêle à bois: que peut-on en faire?''] Vecteur environnement. Mai 2013 : p. 43-49.
Thies, J. E. (2021). [https://www.researchgate.net/publication/352321334_Biological_dinitrogen_fixation_symbiotic Biological dinitrogen fixation : symbiotic]. Dans Terry, J.G., Fuhrmann, J.J. et Zuberer, D. A. (Éditeurs), ''Principles and Applications of Soil Microbiology'' (3<sup>e</sup> édition, p. 455-487). Elsevier.
== Références pour le thé de compost ==
Al-Mughrabi, K. (2006, janvier). [https://www.researchgate.net/publication/45947277_Antibiosis_Ability_of_Aerobic_Compost_Tea_against_Foliar_and_Tuber_Potato_Diseases Antibiosis ability of aerobic compost tea against foliar and tuber potato diseases]. ''Biotechnology 5'' (1), 69-74.


Munroe, J. ''et al.'' 2018. [http://www.omafra.gov.on.ca/french/crops/pub611/pub611ch2.pdf ''Manuel sur la fertilité du sol'']. 3e édition. Publication 611F. MAAARO. 256 p.
Arancon, N.Q., Pant, A., Radovich, T., Nguyen, V.H., Potter, J.K. et Converse, C.E. (2012, juillet). [https://www.researchgate.net/publication/267343057_Seed_Germination_and_Seedling_Growth_of_Tomato_and_Lettuce_As_Affected_by_Vermicompost_Tea_Treatment_Poster_Board_168 Seed Germination and Seedling Growth of Tomato and Lettuce as Affected by Vermicompost Water Extracts (Teas)]. ''Hortscience 47'' (12), 1722–1728.


Singleton, P.W. et J.W. Tavares. 1986. [https://www.ncbi.nlm.nih.gov/pmc/articles/PMC239003/pdf/aem00140-0149.pdf ''Inoculation Response of Legumes in Relation to the Number and Effectiveness of Indigenous Rhizobium Populations'']. Applied and Environmental Microbiology 51 : p. 1013-1018.
Duffy, B., Sarreal, C., Ravva, S. et Stanker, L. (2013, juillet). [https://www.researchgate.net/publication/261572335_Effect_of_Molasses_on_Regrowth_of_E_coli_O157H7_And_Salmonella_in_Compost_Teas Effect of molasses on regrowth of E. Coli O157:H7 and Salmonella in compost teas]. ''Compost Science & Utilization 12'' (1), 93-96.


Sorensen, J.N. et K. Thorup-Kristensen. 2011. ''[https://onlinelibrary.wiley.com/doi/abs/10.1002/jpln.200900321 Plant-based fertilizers for organic vegetable production]''. Journal of Plant Nutrition and Soil Science. 174 (2) : p. 321-332.
Gomez-Brandon, M., Vela, M., Martinez-Toledo, M., Insam, H. et Dominguez, J. (2015, janvier). [https://www.researchgate.net/publication/270880826_Effects_of_Compost_and_Vermicompost_Teas_as_Organic_Fertilizers Effet of compost and vermicompost teas as organic fertilizers]. Dans S. Sinha, K.K. Pant, et S. Bajpai (Eds.), ''Advances en Fertiliser Technology: Synthesis'' (vol. 1, p. 300-318). Studium Press.


Sorensen J.N. et K. Grevsen. 2016. ''[https://www.actahort.org/books/1137/1137_6.htm Strategies for cut-and-carry green manure production]''. Acta Hortic 1137.ISHS 2016. Proc. Int. Symp. on Innovation in Integrated and Organic Agriculture. Eds. : S Bellon ''et al''.
Heba, I. A. K. et Sherif, I.M. (2014, janvier). [https://www.researchgate.net/publication/325854300_ORIGINAL_ARTICLES_Effect_Of_Some_Organic_Extracts_On_Essential_Nutrients_Uptake_Of_Sugar_Beet_Under_Saline_Conditions Effect Of Some Organic Extracts On Essential Nutrients Uptake Of Sugar Beet Under Saline Conditions]. ''Research Journal of Agriculture and Biological Sciences 10'', 53-64.


Thies, J. E. 2021. ''[https://www.researchgate.net/publication/352321334_Biological_dinitrogen_fixation_symbiotic Biological dinitrogen fixation : symbiotic]''. In Principles and Applications of Soil Microbiology. p. 455-487.
Hirzel, J., Cerda, F, Millas, P. et France, A. (2012, juillet). [https://www.researchgate.net/publication/261589336_Compost_Tea_Effects_on_Production_and_Extraction_of_Nitrogen_in_Ryegrass_Cultivated_on_Soil_Amended_With_Commercial_Compost Compost Tea Effects on Production and Extraction of Nitrogen in Ryegrass Cultivated on Soil Amended With Commercial Compost]. ''Compost Science and Utilization 20'' (2), 97-104.
== Références pour les mycorhizes ==
Banerjee , S., F. Walder , L. Büchi , M. Meyer , A. Y Held , A. Gattinger, T. Keller , R. Charles, M. G A van der Heijden. 2019. [https://pubmed.ncbi.nlm.nih.gov/30850707 ''Agricultural intensification reduces microbial network complexity and the abundance of keystone taxa in roots'']. ISME J. 13 : p. 1722-1736.


FIBL. 2016. ''[https://www.fibl.org/fileadmin/documents/shop/13711-03_Essai_DOC_FS_2017_F.pdf L'essais DOC]''. 53 p.  
Ingham, E.R. (2005).[https://forum.lepeuplier.ca/uploads/default/original/1X/f0bada96cecaa70408f5f4b11abeb64b163be032.pdf ''The Compost Tea Brewing Manual''] (5<sup>e</sup> édition). Soil Foodweb Incorporated.


Hijri, M. 2016. ''[https://link.springer.com/article/10.1007/s00572-015-0661-4 Analysis of a large dataset of mycorrhiza inoculation field trials on potato shows highly significant increases in yield]''. Mycorrhiza. 26 : p. 209-214.
Pant, A.,T.J.K.  Radovich, N.V. Hue, S.T. Talcott, et K.A. Krenek. (2009, novembre). [https://www.mapaq.gouv.qc.ca/SiteCollectionDocuments/Regions/ChaudiereAppalaches/2-Essaisdethedecompostdanstomatefraisehamp.pdf Vermi-compost extracts influence growth, mineral nutrients, phytonutrients and antioxidant activity in Pak choi (Brassica rapa cv. Bonsai Chinensis group) grown under vermicompost and chemical fertilizer]. ''Journal of the Science of Food and Agriculture 89'' (14), 2383-2392.


Jochems-Tanguay, L. 2014. [https://www.usherbrooke.ca/environnement/fileadmin/sites/environnement/documents/Essais_2014/Jochems-Tanguay_L__2014-10-08_.pdf ''Les inoculants mycorhiziens pour une agriculture québécoise plus productive et moins dépendantes aux engrais phosphatés'']. Essai présenté au Centre de formation en environnement et développement durable en vue de l’obtention du grade de maître en environnement (M. Env.). Université de Sherbrooke.
Rochon, A.A. (2020, 25 février). ''[https://www.mapaq.gouv.qc.ca/SiteCollectionDocuments/Regions/ChaudiereAppalaches/2-Essaisdethedecompostdanstomatefraisehamp.pdf Essais de thé de compost dans la fraise et la tomate en champ]'' [Conférence]. Journée maraîchère : Capitale-Nationale et Chaudière-Appalaches.


Landry, C. 2020. ''[https://www.irda.qc.ca/fr/projets-recherche/inoculum-mycorhiziens-commerciaux/#:~:text=Cet%20ajout%20aurait%20un%20impact,une%20meilleure%20r%C3%A9sistance%20aux%20stress. Effet sur les rendements de l’ajout d'inoculum mycorhiziens commerciaux sur des semences enrobées dans la culture de la carotte nantaise en sol minéral en début de transition biologique]''. IRDA. Rapport présenté au MAPAQ DRCA.
== Références pour les émulsions de poisson ==
Abbasi, P.A., Conn, K.L. et Lazarovits, G. (2006). [https://www.researchgate.net/publication/242564170_Effect_of_fish_emulsion_used_as_a_preplanting_soil_amendment_on_verticillium_wilt_scab_and_tuber_yield_of_potato Effect of fish emulsion used as a preplanting soil amendment on Verticillium wilt, scab, and tuber yield of potato]. ''Canadian Journal of Plant Pathology 28'' (4), 509-518.


Landry, G-A. 2017. [https://www.agrireseau.net/documents/Document_96915.pdf ''Effets des mycorhizes sur la croissance et le rendement dans la culture de l’ail'']. MAPAQ (projet PADAAR).
Aung, L.H. et Flick Jr., G.J. (1980). [https://agris.fao.org/agris-search/search.do?recordID=US201301334520 The influence of fish solubles on growth and fruiting of tomato]. ''HortScience 15 (1)'', 32-33.


Oehl, F., E. Sieverding, P. Mäder, D. Dubois, K. Ineichen, T. Boller et A. Wiemken. 2004. [https://link.springer.com/article/10.1007/s00442-003-1458-2 ''Impact of long-term conventional and organic farming on the diversity of arbuscular mycorrhizal fungi'']. Oecologia  138 : p. 574–583.
== Référence pour les extraits d’algues ==
Alam, M. Z., Braun, G., Norrie, J. et Hodges, D.M. (2013). [https://cdnsciencepub.com/doi/10.4141/cjps2011-260#:~:text=Ascophyllum%20extract%20application%20also%20increased,between%20the%20two%20growing%20environments. Effect of Ascophyllum extract application on plant growth, fruit yield and soil microbial communities of strawberry]. ''Canadian Journal of Plant Science 93'' (1), 23-36.


Roy. J. [https://www.youtube.com/watch?v=lEz6rCW9mMo ''Carottes en sol minéral : mycorhizées ou non'']. Conférence.
Aldworth, S. J. et Van Staden, J. (1987). [https://pdf.sciencedirectassets.com/273500/1-s2.0-S0254629987X62006/1-s2.0-S0254629916314284/main.pdf?X-Amz-Security-Token=IQoJb3JpZ2luX2VjEN7%2F%2F%2F%2F%2F%2F%2F%2F%2F%2FwEaCXVzLWVhc3QtMSJHMEUCIFki6le2Lsg1hfZdX5qrRoH%2BkSodZBCsW%2BQHLFh%2F3VoGAiEAnN903nKF4Hw2%2FpLr0oi1Hbb0%2FvR6nVOiauE5hF7CHAIq0gQIFxAEGgwwNTkwMDM1NDY4NjUiDEZHLHg8pK7MQ2KwDiqvBOA1ABkt4d%2B0G7RKAlWTCgZyJtUHUBAr19uRQwxkuuSycUVfwIPX8e9C6g0uYopkqCtXJTGJKkxAVT1uz5IvytbKXFfHKV8DcatbIa4CuTtbzfeFNBsk1bUrc1RcZJhYX8hzEdWD79qUZirp8jf3iIRh8zOqI4WBSoZHs8taoDZ9WxdTHC2IpeSuio4GdOjznXkKeXwBr6SNDRnhiaVxbU96dhNybe3T1MhwuhWlCdVlB7FN9zfzsKpO8sTcNi1KvNFRmQUl%2BxnBywPay%2Ba36gIIwTsXRdXNA5SNZm9e%2BB6IP%2FmrSFxaOJsZ%2F8ym5ADW%2F9FttiqEnxxoGQO%2F48JTs532mBT86endZYMQsTLY6pj2fqaLa5oya%2BID4hSCpCmzVo8he5HgRZYPveMhVUCe7NHJMLY4JZKbZ79tcg94jodrU7nOrm5n0tcPOFlJsF3%2BkldqxyrEpo4WkFRWH7GoOoNFRJoPpbk9KT2ZQr2DdazY9%2BB5tCCPX0T95P6MpHauLJftJn%2BKD9fgSZ5tTy02A6fDSZo2lEqStdJCGyhF4xR7G%2FJAqzKc4Jbk2nd4iUXVWY0CeViPT%2BLwZ3PPJytmYs4x%2BD9DahBwtC3pxFo62Ma6z1EXbvQTeTM5kPaPWcu%2F3jZO1eHtwLi9Jlnv54Zj4F0lBH5BBpOupi1wixwsf5YAkTCAyIRmO2f5DWKA3i6WKU1obps%2FvwUfAUZpuyt%2F4jRgg2eKSPOyMTK85GZ0Xf0w%2BoKmlgY6qQG5%2FQntpDTMInz0jVrjOhC9K9wp5zO91%2BveNHbebTjTmu2KkA%2BH8db850%2FgbATDdh0Cfe%2BOQWOOYWm8tIwKM8nxUbd5TxVSeyKmrt66N6whGpHeE3maYgPW52NpRSapQrLcTsFMo9vqLOil3mRKfrRF%2BbgC%2FOfcakh1OdS5jS9BF9Khzh%2BYOLqZw%2F03Iows1Z8kPdaT9koXjEZbku9Pd3wTQrJvMTZ1yD7c&X-Amz-Algorithm=AWS4-HMAC-SHA256&X-Amz-Date=20220709T134925Z&X-Amz-SignedHeaders=host&X-Amz-Expires=300&X-Amz-Credential=ASIAQ3PHCVTYZT65XEMQ%2F20220709%2Fus-east-1%2Fs3%2Faws4_request&X-Amz-Signature=9a922ccb9916ee24e39123c2d9ad8e47e9616c753085ada0b1fd74d12dbaf2e2&hash=7d3dc9d790dab5d2acc64cd09fb51b6b3cfeccaaa32dc283ddc66f4897f3f544&host=68042c943591013ac2b2430a89b270f6af2c76d8dfd086a07176afe7c76c2c61&pii=S0254629916314284&tid=spdf-a0e32cbb-880f-4cc6-adf9-41043e9891a4&sid=90d37e729ec76041f708f8857e7a384b68f6gxrqa&type=client&ua=5950585e5e5601505a&rr=728185d68b864bb9 The effect of seaweed concentrate on seedling transplants]. ''South African Journal of Botany 53'' (3), 187-189.


== Références pour le thé de compost ==
Basak, A. (2008). [https://www.tandfonline.com/doi/full/10.1080/15538360802365251#:~:text=It%20was%20found%20that%20Kelpak,improvement%20in%20the%20distribution%20of Effect of preharvest treatment with seaweed products, Kelpak® and Goemar BM86®, on fruit quality in apple]. ''International Journal of Fruit Science 8'' (1-2), 1-14.
Al-Mughrabi, K., 2006. ''[https://www.researchgate.net/publication/45947277_Antibiosis_Ability_of_Aerobic_Compost_Tea_against_Foliar_and_Tuber_Potato_Diseases Antibiosis ability of aerobic compost tea against foliar and tuber potato diseases]''. Biotechnology. 5 : p. 69-74.


Duffy, B., C. Sarreal, S. Ravva et L. Stanker. 2013. ''[https://www.researchgate.net/publication/261572335_Effect_of_Molasses_on_Regrowth_of_E_coli_O157H7_And_Salmonella_in_Compost_Teas Effect of molasses on regrowth of E. Coli O157:H7 and Salmonella in compost teas. Compost science and utilization]''. 12 : p. 93-96.
Craigie, J.S. (2011, juin). [https://www.researchgate.net/publication/226121967_Seaweed_extract_stimuli_in_plant_science_and_agriculture Seaweed extract stimuli in plant science and agriculture]. ''Journal of Applied Phycology 23'' (3), 371-393.


Ingham, E.R. 2005. ''[https://forum.lepeuplier.ca/uploads/default/original/1X/f0bada96cecaa70408f5f4b11abeb64b163be032.pdf The Compost Tea Brewing Manual]''. 5e édition. Soil Foodweb Incorporated, Oregon. 79 p.
Crouch, I. J. et Van Staden, J. (1992). [https://link.springer.com/article/10.1007/BF02185785 Effect of seaweed concentrate on the establishment and yield of greenhouse tomato plants]. ''Journal of Applied Phycology 4'' (4), 291-296.


Pant, A.,T.J.K.  Radovich, N.V. Hue, S.T. Talcott, et K.A. Krenek. 2009. [https://www.mapaq.gouv.qc.ca/SiteCollectionDocuments/Regions/ChaudiereAppalaches/2-Essaisdethedecompostdanstomatefraisehamp.pdf ''Vermi- compost extracts influence growth, mineral nutrients, phytonutrients and antioxidant activity in Pak choi (Brassica rapa cv. Bonsai Chinensis group) grown under vermicompost and chemical fertilizer'']. J. Sci. Food Agric. 89 : p. 2383-92.
Dell’Aversana, E., Cirillo, V., Van Oosten, M. J., Di Stasio, E., Saiano, K., Woodrow, P. et Carillo, P. (2021). [https://www.researchgate.net/publication/351764238_Ascophyllum_nodosum_Based_Extracts_Counteract_Salinity_Stress_in_Tomato_by_Remodeling_Leaf_Nitrogen_Metabolism Ascophyllum nodosum Based Extracts Counteract Salinity Stress in Tomato by Remodeling Leaf Nitrogen Metabolism]. ''Plants 10'' (6), 104.


Arancon, N.Q., A. Pant, T. Radovich, V.H. Nguyen, J.K., Potter et C.E. Converse. 2012.  [https://www.researchgate.net/publication/267343057_Seed_Germination_and_Seedling_Growth_of_Tomato_and_Lettuce_As_Affected_by_Vermicompost_Tea_Treatment_Poster_Board_168 ''Seed Germination and Seedling Growth of Tomato and Lettuce as Affected by Vermicompost Water Extracts (Teas)'']. Hortscience. 47 : p. 1722–1728.
Dixon, G. R. et Walsh, U. (2004, mars). [https://www.researchgate.net/publication/283888372_Suppressing_Pythium_ultimum_induced_damping-off_in_cabbage_seedlings_by_biostimulation_with_proprietary_liquid_seaweed_extracts Suppressing Pythium ultimum induced damping-off in cabbage seedlings by biostimulation with proprietary liquid seaweed extracts]. ''Acta Horticulturae 635''(635), 103-106.


Heba, I. A. K. et I.M. Sherif, 2014. ''[https://www.researchgate.net/publication/325854300_ORIGINAL_ARTICLES_Effect_Of_Some_Organic_Extracts_On_Essential_Nutrients_Uptake_Of_Sugar_Beet_Under_Saline_Conditions Effect Of Some Organic Extracts On Essential Nutrients Uptake Of Sugar Beet Under Saline Conditions]''. Research Journal of Agriculture and Biological Sciences. 10 : p. 53-64.
Fan, D., Hodges, D.M., Critchley, A.T. et Prithiviraj, B. (2013, juillet). [https://www.researchgate.net/publication/263577872_A_Commercial_Extract_of_Brown_Macroalga_Ascophyllum_nodosum_Affects_Yield_and_the_Nutritional_Quality_of_Spinach_In_Vitro A commercial extract of Brown Macroalga (Ascophyllum nodosum) affects yield and the nutritional quality of spinach in vitro]. ''Communications in Soil Science and Plant Analysis 44'' (12), 1873-1884.


Hirzel, J., Cerda, F, Millas, P. et A. France. 2012. ''[https://www.researchgate.net/publication/261589336_Compost_Tea_Effects_on_Production_and_Extraction_of_Nitrogen_in_Ryegrass_Cultivated_on_Soil_Amended_With_Commercial_Compost Compost Tea Effects on Production and Extraction of Nitrogen in Ryegrass Cultivated on Soil Amended With Commercial Compost]''. Compost Science and Utilization. 20 : p. 97-104.
Goñi, O., Quille, P. et O'Connell, S. (2018). [https://www.researchgate.net/publication/323527585_Ascophyllum_nodosum_extract_biostimulants_and_their_role_in_enhancing_tolerance_to_drought_stress_in_tomato_plants Ascophyllum nodosum extract biostimulants and their role in enhancing tolerance to drought stress in tomato plants]. ''Plant physiology and biochemistry 126'', 63-73.


Gomez-Brandon, M., M. Vela, M. Martinez-Toledo, H. Insam et J. Dominguez. 2015.  ''[https://www.researchgate.net/publication/270880826_Effects_of_Compost_and_Vermicompost_Teas_as_Organic_Fertilizers Effet of compost and vermicompost teas as organic fertilizers]''. In: Sinha, S. Pant, K.K. Bajpai S. (Eds.), Advances en Fertiliser Technology: Synthesis (Vol 1). Studium Press, LLC, USA. p. 300-318.
González, A., Castro, J., Vera, J. et Moenne, A. (2013). [https://www.researchgate.net/publication/257402960_Seaweed_Oligosaccharides_Stimulate_Plant_Growth_by_Enhancing_Carbon_and_Nitrogen_Assimilation_Basal_Metabolism_and_Cell_Division Seaweed Oligosaccharides Stimulate Plant Growth by Enhancing Carbon and Nitrogen Assimilation, Basal Metabolism, and Cell Division]. ''Journal of Plant Growth Regulation 32'' (2), 443-448.  


== Référence pour les extraits d’algues ==
Jayaraj, J., Wan, A., Rahman, M. et Punja, Z.K. (2008). [https://www.researchgate.net/publication/223700941_Seaweed_extract_reduces_foliar_fungal_diseases_on_carrot Seaweed extract reduces foliar fungal diseases on carrot]. ''Crop Protection 27'' (10), 1360-1366.  
Alam, M. Z., G. Braun, J. Norrie, and D.M. Hodges. 2013. Effect of Ascophyllum extract application on plant growth, fruit yield and soil microbial communities of strawberry. Canadian Journal of Plant Science. 93(1):23-36.


Aldworth, S. J., and J. Van Staden. 1987. The effect of seaweed concentrate on seedling transplants. South African Journal of Botany. 53(3):187-189.
Khan, W., Rayirath, U.P., Subramanian, S., Jithesh, M.N., Rayorath, P., Hodges, D. M., Critchley, A.T., Craigie, J.S., Norrie, J. et Prithiviraj, B. (2009, décembre). [https://www.researchgate.net/publication/225338767_Seaweed_Extracts_as_Biostimulants_of_Plant_Growth_and_Development Seaweed Extracts as Biostimulants of Plant Growth and Development]. ''Journal of Plant Growth Regulation 28'' (4), 386-399.


Basak A. 2008. Effect of preharvest treatment with seaweed products, Kelpak® and Goemar BM86®, on fruit quality in apple. Int J Fruit Sci. 8:1–14
Kumar, G. et Sahoo, D. (2011). [https://www.researchgate.net/publication/225443405_Effect_of_seaweed_liquid_extract_on_growth_and_yield_of_Triticum_aestivum_var_Pusa_Gold#:~:text=Kumar%20and%20Sahoo%20(2011)%20found,of%20seeds.%20.%20... Effect of seaweed liquid extract on growth and yield of Triticum aestivum var. Pusa Gold]. ''Journal of Applied Phycology 23''(2), 251-255.


Fan, D., D. M. Hodges, A. T. Critchley. and B. Prithiviraj. 2013. A commercial extract of Brown Macroalga (Ascophyllum nodosum) affects yield and the nutritional quality of spinach in vitro. Commun Soil Sci Plant Anal. 44:1873–1884.
Kumari, R., Kaur, I. et Bhatnagar, A. K. (2011). [https://www.researchgate.net/publication/226758872_Effect_of_aqueous_extract_of_Sargassum_johnstonii_Setchell_Gardner_on_growth_yield_and_quality_of_Lycopersicon_esculentum_Mill Effect of aqueous extract of Sargassum johnstonii Setchell& Gardner on growth, yield and quality of Lycopersicon esculentum Mill]. ''Journal of Applied Phycology 23''(3), 623-633.


Craigie J.S. 2011 Seaweed extract stimuli in plant science and agriculture. J Appl Phycol. 23:371–393
Lizzi, Y., Coulomb, C., Polian, C., Coulomb, P.J. et Coulomb, P.O. (1998). [https://agris.fao.org/agris-search/search.do?recordID=FR1998004575 Seaweed and mildew: what does the future hold?] ''Phytoma La Défense des Végétaux''.


Crouch, I. J., and J. Van Staden. 1992. Effect of seaweed concentrate on the establishment and yield of greenhouse tomato plants. Journal of Applied Phycology. 4(4):291-296.
Mattner, S.W., Wite, D., Riches, D.A., Porter, I.J. et Arioli, T. (2013). [https://www.tandfonline.com/doi/full/10.1080/01448765.2013.830276#:~:text=In%20the%20field%2C%20application%20of,25%20l%20ha%E2%88%92%201). The effect of kelp extract on seedling establishment of broccoli on contrasting soil types in southern Victoria, Australia]. ''Biological agriculture & horticulture 29''(4), 258-270.


Dell’Aversana, E., V. Cirillo, M. J. Van Oosten, E. Di Stasio, K. Saiano, P. Woodrow. and P. Carillo. 2021. Ascophyllum nodosum Based Extracts Counteract Salinity Stress in Tomato by Remodeling Leaf Nitrogen Metabolism. Plants. 10(6):104
Ugarte, R.A., Sharp, G. et Moore, B. (2006, janvier). [https://www.researchgate.net/publication/303121042_Changes_in_the_brown_seaweed_Ascophyllum_nodosum_L_Le_Jol_plant_morphology_and_biomass_produced_by_cutter_rake_harvests_in_southern_New_Brunswick_Canada Changes in the brown seaweed Ascophyllum nodosum (L.) Le Jol. Plant morphology and biomass produced by cutter rake harvests in southern New Brunswick, Canada]. ''Eighteenth International Seaweed Symposium'', 125-133.
Dixon, G. R., and U. Walsh. 2002. Suppressing Pythium ultimum induced damping-off in cabbage seedlings by biostimulation with proprietary liquid seaweed extracts. In XXVI International Horticultural Congress: Managing Soil-Borne Pathogens: A Sound Rhizosphere to Improve Productivity. 635:103-106.


Goñi, O., P. Quille, and S. O'Connell. 2018. Ascophyllum nodosum extract biostimulants and their role in enhancing tolerance to drought stress in tomato plants. Plant physiology and biochemistry. 126: 63-73.
Whapham, C.A., Blunden, G., Jenkins, T. et Hankins, S.D. (1993). [https://link.springer.com/article/10.1007/BF00004023?noAccess=true Significance of betaines in the increased chlorophyll content of plants treated with seaweed extract]. ''Journal of Applied Phycology 5''(2), 231-234.


González, A., J. Castro, J Vera. and A. Moenne. 2012. Seaweed Oligosaccharides Stimulate Plant Growth by Enhancing Carbon and Nitrogen Assimilation, Basal Metabolism, and Cell Division. J. Plant Growth Regul. 32:443–448.  
Zhang, Q., Zhang, J., Shen, J., Silva, A. et Dennis, D.A. (2006). [https://www.researchgate.net/publication/44094100_A_Simple_96-Well_Microplate_Method_for_Estimation_of_Total_Polyphenol_Content_in_Seaweeds A simple 96-well microplate method for estimation of total polyphenol content in seaweeds]. ''Journal of Applied Phycology 18''(3), 445-450.
== Références pour les mycorhizes ==
Banerjee , S., Walder, F., Büchi, L., Meyer, M., Held, A.Y., Gattinger, A., Keller, T., Charles, R. et Van der Heijden, M.G.A. (2019). [https://www.researchgate.net/publication/327638822_Agricultural_intensification_reduces_microbial_network_complexity_and_the_abundance_of_keystone_taxa_in_roots Agricultural intensification reduces microbial network complexity and the abundance of keystone taxa in roots]. ''ISME Journal 13'', 1722-1736.


Khan, W., U. P. Rayirath, S. Subramanian et al. 2209. Seaweed Extracts as Biostimulants of Plant Growth and Development. J Plant Growth Regul. 28:386–399.
FiBL. (2016). [https://www.fibl.org/fileadmin/documents/shop/13711-03_Essai_DOC_FS_2017_F.pdf ''L'essai DOC''].  


Kumar G and D. Sahoo. 2011. Effect of seaweed liquid extract on growth and yield of Triticum aestivum var. Pusa Gold J Appl Phycol. 23:251–255.
Hijri, M. (2016). [https://link.springer.com/article/10.1007/s00572-015-0661-4 Analysis of a large dataset of mycorrhiza inoculation field trials on potato shows highly significant increases in yield]. ''Mycorrhiza 26'', 209-214.


Kumari, R., I. Kaur and A. K. Bhatnagar. 2011 Effect of aqueous extract of Sargassum johnstonii Setchell& Gardner on growth, yield and quality of Lycopersicon esculentum Mill. J Appl Phycol. 23:623–633
Jochems-Tanguay, L. (2014). [https://www.usherbrooke.ca/environnement/fileadmin/sites/environnement/documents/Essais_2014/Jochems-Tanguay_L__2014-10-08_.pdf ''Les inoculants mycorhiziens pour une agriculture québécoise plus productive et moins dépendantes aux engrais phosphatés'']. [Essai de maîtrise en environnement]. Université de Sherbrooke.
Jayaraj, J., A. Wan, M. Rahman, and Z.K. Punja. 2008. Seaweed extract reduces foliar fungal diseases on carrot. Crop Protection. 27(10):1360-1366.


Lizzi, Y., C. Coulomb, C. Polian, P. J. Coulomb, and P. O. Coulomb. 1998. Seaweed and mildew: what does the future hold?. Phytoma La Defense des Vegetaux (France).
Landry, C. (2020). [https://www.irda.qc.ca/fr/projets-recherche/inoculum-mycorhiziens-commerciaux/#:~:text=Cet%20ajout%20aurait%20un%20impact,une%20meilleure%20r%C3%A9sistance%20aux%20stress. ''Effet sur les rendements de l’ajout d'inoculum mycorhiziens commerciaux sur des semences enrobées dans la culture de la carotte nantaise en sol minéral en début de transition biologique'']. Institut de recherche et de développement en agroenvironnement (IRDA).


Mattner, S. W., D. Wite, D. A. Riches, I.J. Porter, and T. Arioli. 2013. The effect of kelp extract on seedling establishment of broccoli on contrasting soil types in southern Victoria, Australia. Biological agriculture & horticulture. 29(4):258-270.  
Landry, G-A. (2017). [https://www.agrireseau.net/documents/Document_96915.pdf ''Effets des mycorhizes sur la croissance et le rendement dans la culture de l’ail''] [Conférence]. Ministère de l'Agriculture, des Pêcheries et de l'Alimentation du Québec (MAPAQ).
Ugarte, R. A., G. Sharp, and B. Moore. 2006. Changes in the brown seaweed Ascophyllum nodosum (L.) Le Jol. Plant morphology and biomass produced by cutter rake harvests in southern New Brunswick, Canada. In Eighteenth International Seaweed Symposium. 125-133.


Whapham, C. A., G. Blunden, T. Jenkins, and S. D. Hankins. 1993. Significance of betaines in the increased chlorophyll content of plants treated with seaweed extract. Journal of Applied Phycology. 5(2):231-234.
Oehl, F., Sieverding, E., Mäder, P., Dubois, D., Ineichen, K., Boller T. et Wiemken, A. (2004). [https://www.researchgate.net/publication/8926918_Impact_of_long-term_conventional_and_organic_farming_on_the_diversity_of_arbuscular_mycorrhizal_fungi Impact of long-term conventional and organic farming on the diversity of arbuscular mycorrhizal fungi]. ''Oecologia 138''(4), 574-83.
Zhang, Q., J. Zhang, J. Shen, A. Silva and D. A. Dennis. 2006. A simple 96-well microplate method for estimation of total polyphenol content in seaweeds. J Appl Phycol. 18:445–450


== Références pour les émulsions de poisson ==
Rai, Q. (2021). [https://www.biorxiv.org/content/10.1101/2021.09.27.461990v1.full ''Rhizobial adhesives enhance nodule formation in sunn hemp'']. Biology Department, University of Texas Rio Grande Valley, Edinburg, Texas.
Abbasi, P. A., K. L. Conn and G. Lazarovits. 2006. Effect of fish emulsion used as a preplanting soil amendment on Verticillium wilt, scab, and tuber yield of potato. Canadian Journal of Plant Pathology. 28(4):509-518.


Aung, L. H., and G. J. Flick Jr. 1980. The influence of fish solubles on growth and fruiting of tomato. HortScience. 15(1):32-33.
Roy, J. (2021). [https://www.youtube.com/watch?v=lEz6rCW9mMo ''Carottes en sol minéral : mycorhizées ou non?''] [Conférence]. Ministère de l'Agriculture, des Pêcheries et de l'Alimentation du Québec (MAPAQ).


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Dernière version du 2023-01-19 à 15:14:07

Production


Le contenu qui suit est issu de :

Oeuvre originale : Weill, A. et Duval, J. (2009). Guide de gestion globale de la ferme maraîchère biologique et diversifiée. Équiterre.

Révision : Weill, A., Legault, G., Bergeron, E., Méthé, A., La France, D., St-Arnaud, R., Roy, J., Khanna, R. et Gagné, G. (2022).

Pour contribuer, vous pouvez commenter (en bas de page) ou démarrer une discussion sur le sujet (bouton « … » en haut à droite). Pour modifier le contenu, veuillez contacter les auteur·rices ou écrire à l’équipe du WM. Pour suivre l'évolution de cette page, sélectionnez l'option à cet effet dans le menu "...".


Références générales

A & L Canada Laboratories. (2013). Fertilizer Salt Index.

Chen, L., et Dick, W.A. (2011). Gypsum as an agricultural amendment: General use guidelines. Ohio State University Extension.

Centre de référence en agriculture et agroalimentaire du Québec (CRAAQ). (2013). Guide de référence en fertilisation (2e édition).

Cordell, D. et White, S. (2011). Clarifying the key issues of a vigorous debate about long-term phosphorus security. Sustainability 3 (10), 2027-2049.

Diver, S. (2002). Notes on Compost Teas A Supplement to the ATTRA Publication "Compost Teas for Plant Disease Control". National Sustainable Agriculture Information Service (ATTRA).

Heckman, J.R. (2009). Boron : Needs of soils and crop in New Jersey (Fact Sheet FS873). Rutgers, the state university of New Jersey.

Landry, C. (2018, 8 janvier). Le carbone labile, au cœur d’une matière organique efficace. [Conférence]. Colloque Santé des sols.

Landry, C., Marchand-Roy, M., Mainguy, J. et Paradis, M. (2019). Détermination terrain du coefficient d'efficacité azoté et du délai de libération de l'azote (N) des fientes granulées de poules pondeuses dans les cultures de maïs-grain et avoine. Institut de recherche et de développement en agroenvironnement (IRDA).

Majeau, J. A., Hebert, M. et Desforges, J. (2013, mai). Les cendre de poêle à bois: que peut-on en faire? Vecteur environnement, 43-49.

Munroe, J. (2018). Manuel sur la fertilité du sol. (3e édition; Publication 611F). MAAARO.

Singleton, P.W. et Tavares, J.W. (1986). Inoculation Response of Legumes in Relation to the Number and Effectiveness of Indigenous Rhizobium Populations. Applied and Environmental Microbiology 51 (5), 1013-1018.

Sorensen J.N. et Grevsen, K. (2016). Strategies for cut-and-carry green manure production. ISHS Acta Horticulturae 1137 : International Symposium on Innovation in Integrated and Organic Horticulture (INNOHORT).

Sorensen, J.N. et Thorup-Kristensen, K. (2011). Plant-based fertilizers for organic vegetable production. Journal of Plant Nutrition and Soil Science 174 (2), 321-332.

Thies, J. E. (2021). Biological dinitrogen fixation : symbiotic. Dans Terry, J.G., Fuhrmann, J.J. et Zuberer, D. A. (Éditeurs), Principles and Applications of Soil Microbiology (3e édition, p. 455-487). Elsevier.

Références pour le thé de compost

Al-Mughrabi, K. (2006, janvier). Antibiosis ability of aerobic compost tea against foliar and tuber potato diseases. Biotechnology 5 (1), 69-74.

Arancon, N.Q., Pant, A., Radovich, T., Nguyen, V.H., Potter, J.K. et Converse, C.E. (2012, juillet). Seed Germination and Seedling Growth of Tomato and Lettuce as Affected by Vermicompost Water Extracts (Teas). Hortscience 47 (12), 1722–1728.

Duffy, B., Sarreal, C., Ravva, S. et Stanker, L. (2013, juillet). Effect of molasses on regrowth of E. Coli O157:H7 and Salmonella in compost teas. Compost Science & Utilization 12 (1), 93-96.

Gomez-Brandon, M., Vela, M., Martinez-Toledo, M., Insam, H. et Dominguez, J. (2015, janvier). Effet of compost and vermicompost teas as organic fertilizers. Dans S. Sinha, K.K. Pant, et S. Bajpai (Eds.), Advances en Fertiliser Technology: Synthesis (vol. 1, p. 300-318). Studium Press.

Heba, I. A. K. et Sherif, I.M. (2014, janvier). Effect Of Some Organic Extracts On Essential Nutrients Uptake Of Sugar Beet Under Saline Conditions. Research Journal of Agriculture and Biological Sciences 10, 53-64.

Hirzel, J., Cerda, F, Millas, P. et France, A. (2012, juillet). Compost Tea Effects on Production and Extraction of Nitrogen in Ryegrass Cultivated on Soil Amended With Commercial Compost. Compost Science and Utilization 20 (2), 97-104.

Ingham, E.R. (2005).The Compost Tea Brewing Manual (5e édition). Soil Foodweb Incorporated.

Pant, A.,T.J.K. Radovich, N.V. Hue, S.T. Talcott, et K.A. Krenek. (2009, novembre). Vermi-compost extracts influence growth, mineral nutrients, phytonutrients and antioxidant activity in Pak choi (Brassica rapa cv. Bonsai Chinensis group) grown under vermicompost and chemical fertilizer. Journal of the Science of Food and Agriculture 89 (14), 2383-2392.

Rochon, A.A. (2020, 25 février). Essais de thé de compost dans la fraise et la tomate en champ [Conférence]. Journée maraîchère : Capitale-Nationale et Chaudière-Appalaches.

Références pour les émulsions de poisson

Abbasi, P.A., Conn, K.L. et Lazarovits, G. (2006). Effect of fish emulsion used as a preplanting soil amendment on Verticillium wilt, scab, and tuber yield of potato. Canadian Journal of Plant Pathology 28 (4), 509-518.

Aung, L.H. et Flick Jr., G.J. (1980). The influence of fish solubles on growth and fruiting of tomato. HortScience 15 (1), 32-33.

Référence pour les extraits d’algues

Alam, M. Z., Braun, G., Norrie, J. et Hodges, D.M. (2013). Effect of Ascophyllum extract application on plant growth, fruit yield and soil microbial communities of strawberry. Canadian Journal of Plant Science 93 (1), 23-36.

Aldworth, S. J. et Van Staden, J. (1987). The effect of seaweed concentrate on seedling transplants. South African Journal of Botany 53 (3), 187-189.

Basak, A. (2008). Effect of preharvest treatment with seaweed products, Kelpak® and Goemar BM86®, on fruit quality in apple. International Journal of Fruit Science 8 (1-2), 1-14.

Craigie, J.S. (2011, juin). Seaweed extract stimuli in plant science and agriculture. Journal of Applied Phycology 23 (3), 371-393.

Crouch, I. J. et Van Staden, J. (1992). Effect of seaweed concentrate on the establishment and yield of greenhouse tomato plants. Journal of Applied Phycology 4 (4), 291-296.

Dell’Aversana, E., Cirillo, V., Van Oosten, M. J., Di Stasio, E., Saiano, K., Woodrow, P. et Carillo, P. (2021). Ascophyllum nodosum Based Extracts Counteract Salinity Stress in Tomato by Remodeling Leaf Nitrogen Metabolism. Plants 10 (6), 104.

Dixon, G. R. et Walsh, U. (2004, mars). Suppressing Pythium ultimum induced damping-off in cabbage seedlings by biostimulation with proprietary liquid seaweed extracts. Acta Horticulturae 635(635), 103-106.

Fan, D., Hodges, D.M., Critchley, A.T. et Prithiviraj, B. (2013, juillet). A commercial extract of Brown Macroalga (Ascophyllum nodosum) affects yield and the nutritional quality of spinach in vitro. Communications in Soil Science and Plant Analysis 44 (12), 1873-1884.

Goñi, O., Quille, P. et O'Connell, S. (2018). Ascophyllum nodosum extract biostimulants and their role in enhancing tolerance to drought stress in tomato plants. Plant physiology and biochemistry 126, 63-73.

González, A., Castro, J., Vera, J. et Moenne, A. (2013). Seaweed Oligosaccharides Stimulate Plant Growth by Enhancing Carbon and Nitrogen Assimilation, Basal Metabolism, and Cell Division. Journal of Plant Growth Regulation 32 (2), 443-448.

Jayaraj, J., Wan, A., Rahman, M. et Punja, Z.K. (2008). Seaweed extract reduces foliar fungal diseases on carrot. Crop Protection 27 (10), 1360-1366.

Khan, W., Rayirath, U.P., Subramanian, S., Jithesh, M.N., Rayorath, P., Hodges, D. M., Critchley, A.T., Craigie, J.S., Norrie, J. et Prithiviraj, B. (2009, décembre). Seaweed Extracts as Biostimulants of Plant Growth and Development. Journal of Plant Growth Regulation 28 (4), 386-399.

Kumar, G. et Sahoo, D. (2011). Effect of seaweed liquid extract on growth and yield of Triticum aestivum var. Pusa Gold. Journal of Applied Phycology 23(2), 251-255.

Kumari, R., Kaur, I. et Bhatnagar, A. K. (2011). Effect of aqueous extract of Sargassum johnstonii Setchell& Gardner on growth, yield and quality of Lycopersicon esculentum Mill. Journal of Applied Phycology 23(3), 623-633.

Lizzi, Y., Coulomb, C., Polian, C., Coulomb, P.J. et Coulomb, P.O. (1998). Seaweed and mildew: what does the future hold? Phytoma La Défense des Végétaux.

Mattner, S.W., Wite, D., Riches, D.A., Porter, I.J. et Arioli, T. (2013). The effect of kelp extract on seedling establishment of broccoli on contrasting soil types in southern Victoria, Australia. Biological agriculture & horticulture 29(4), 258-270.

Ugarte, R.A., Sharp, G. et Moore, B. (2006, janvier). Changes in the brown seaweed Ascophyllum nodosum (L.) Le Jol. Plant morphology and biomass produced by cutter rake harvests in southern New Brunswick, Canada. Eighteenth International Seaweed Symposium, 125-133.

Whapham, C.A., Blunden, G., Jenkins, T. et Hankins, S.D. (1993). Significance of betaines in the increased chlorophyll content of plants treated with seaweed extract. Journal of Applied Phycology 5(2), 231-234.

Zhang, Q., Zhang, J., Shen, J., Silva, A. et Dennis, D.A. (2006). A simple 96-well microplate method for estimation of total polyphenol content in seaweeds. Journal of Applied Phycology 18(3), 445-450.

Références pour les mycorhizes

Banerjee , S., Walder, F., Büchi, L., Meyer, M., Held, A.Y., Gattinger, A., Keller, T., Charles, R. et Van der Heijden, M.G.A. (2019). Agricultural intensification reduces microbial network complexity and the abundance of keystone taxa in roots. ISME Journal 13, 1722-1736.

FiBL. (2016). L'essai DOC.

Hijri, M. (2016). Analysis of a large dataset of mycorrhiza inoculation field trials on potato shows highly significant increases in yield. Mycorrhiza 26, 209-214.

Jochems-Tanguay, L. (2014). Les inoculants mycorhiziens pour une agriculture québécoise plus productive et moins dépendantes aux engrais phosphatés. [Essai de maîtrise en environnement]. Université de Sherbrooke.

Landry, C. (2020). Effet sur les rendements de l’ajout d'inoculum mycorhiziens commerciaux sur des semences enrobées dans la culture de la carotte nantaise en sol minéral en début de transition biologique. Institut de recherche et de développement en agroenvironnement (IRDA).

Landry, G-A. (2017). Effets des mycorhizes sur la croissance et le rendement dans la culture de l’ail [Conférence]. Ministère de l'Agriculture, des Pêcheries et de l'Alimentation du Québec (MAPAQ).

Oehl, F., Sieverding, E., Mäder, P., Dubois, D., Ineichen, K., Boller T. et Wiemken, A. (2004). Impact of long-term conventional and organic farming on the diversity of arbuscular mycorrhizal fungi. Oecologia 138(4), 574-83.

Rai, Q. (2021). Rhizobial adhesives enhance nodule formation in sunn hemp. Biology Department, University of Texas Rio Grande Valley, Edinburg, Texas.

Roy, J. (2021). Carottes en sol minéral : mycorhizées ou non? [Conférence]. Ministère de l'Agriculture, des Pêcheries et de l'Alimentation du Québec (MAPAQ).


Sommaire du guide
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Centre d'expertise et de transfert en agriculture biologique et de proximité
Coopérative pour l'agriculture de proximité écologique
L'Odyssée bio de Gigi
Procédurable