Open Access
Issue |
Ciência Téc. Vitiv.
Volume 34, Number 1, 2019
|
|
---|---|---|
Page(s) | 36 - 47 | |
DOI | https://doi.org/10.1051/ctv/20193401036 | |
Published online | 26 June 2019 |
- Anderson J.L., Bingham G.E., Hill R.W., 1992. Effect of permanent cover crop competition on sour cherry tree evapotranspiration, growth, and productivity. Acta Hort., 313, 135-142. [CrossRef] [Google Scholar]
- Anderson R.L., 2015. Integrating a complex rotation with no-till improves weed management in organic farming. A review. Agron Sustain Dev., 35, 967-974. [Google Scholar]
- Aranda V., Ayora-Cañada M.J., Domínguez-Vidal A., Martín-García J.M., Calero J., Delgado R., Verdejo T., González-Vila F.J., 2011. Effect of soil type and management (organic vs. conventional) on soil organic matter quality in olive groves in a semi-arid Environment in Sierra Mágina Natural Park (S Spain). Geoderma, 164, 54-63. [Google Scholar]
- Bailey K.L., Falk S., Derby J.-A., Melzer M., Boland G.J., 2013. The effect of fertilizers on the efficacy of the bioherbicide, Phoma macrostoma, to control dandelions in turfgrass. Biol. Control, 65, 147-151. [Google Scholar]
- Bajwa A.A., 2014. Sustainable weed management in conservation agriculture. Crop Prot., 65, 105-113. [Google Scholar]
- Brainard D.C., Peachey E., Haramoto E., Luna J., Rangarajan A., 2013. Weed ecology and management under strip tillage: implications for Northern U.S. vegetable cropping systems. Weed Technol., 27, 218-230. [CrossRef] [Google Scholar]
- Portugal J., Calha I.M., Gonzallez-Torrava, F., Roldan R., Deprado R., 2013. Resistência ao glifosato em vinhas do Douro. Actas do 9º Simpósio de Vitivinicultura do Alentejo, 15-17 maio, Évora, Portugal. pp. 139-148. [Google Scholar]
- Portugal J., Monteiro A., Luz J.P., 2017. Gestão de infestantes em vinhas, olivais e pomares. Rev. Ciênc. Agár., 40(4), 839-853. [Google Scholar]
- Cañero A.I., Cox L., Redondo-Gómez S., Mateos-Naranjo E., Hermosín M.C., Cornejo J., 2011. Effect of the herbicides Terbuthylazine and Glyphosate on photosystem II photochemistry of young olive (Olea europaea) plants. J. Agric. Food Chem., 59, 5528-5534. [CrossRef] [PubMed] [Google Scholar]
- Celis R., Trigo C., Facenda G., Hermosín M.C., Cornejo J., 2007. Selective modification of clay minerals for the adsorption of herbicides widely used in olive groves. J. Agric. Food Chem., 55, 6650-6658. [CrossRef] [PubMed] [Google Scholar]
- Chauhan B.S., Singh R.G., Mahajan G., 2012. Ecology and management of weeds under conservation agriculture: A review. Crop Prot., 38, 57-65. [Google Scholar]
- [CMV] Câmara Municipal de Valpaços. 2006. Plano Municipal de Defesa da Floresta Contra Incêndios [Municipal Forest Fire Protection Plan]. [Accessed 2016, May 31]. http://valpacos.pt/. Portuguese. [Google Scholar]
- Cordeau S., Triolet M., Wayman S., Steinberg C., Guillemin J.-P., 2016. Bioherbicides: Dead in the water? A review of the existing products for integrated weed management. Crop Prot., 87, 44-49. [Google Scholar]
- Damgaard C., Merlin A., Mesléard F, Bonis A., 2011. The demography of space occupancy: measuring plant colonization and survival probabilities using repeated pin-point measurements. Methods Ecol. Evol., 2, 110-115. [Google Scholar]
- Dorn B., Jossi W., Van Der Heijden M.G.A., 2015. Weed suppression by cover crops: comparative on-farm experiments under integrated and organic conservation tillage. Weed Res., 55, 586-597. [Google Scholar]
- Drews S., Neuhoff D., Köpke U., 2009. Weed suppression ability of three winter wheat varieties at different row spacing under organic farming conditions. Weed Res., 49, 526-533. [Google Scholar]
- Ferreira I.Q., Arrobas M., Claro A.M.., Rodrigues M.A., 2013. Soil management in rainfed oliv,e orchards may result in conflicting effects on olive production and soil fertility. Span. J. Agric. Res. 11(2), 472-480. [CrossRef] [Google Scholar]
- Garrison A.J., Miller A.D., Ryan M.R., Roxburgh S.H., Shea K., 2014. Stacked crop rotations exploit weed-weed competition for sustainable weed management. Weed Sci., 62, 166-176. [CrossRef] [Google Scholar]
- Ghersa C.M., Benech-Arnolds R.L., Satorre E.H., Martínez-Ghersa M.A., 2000. Advances in weed management strategies. Field Crop Res., 67, 95-104. [CrossRef] [Google Scholar]
- Gómez J.A., Guzmán M.G., Giráldez J.V., Ferreres E., 2009. The influence of cover crops and tillage on water and sediment yield, and on nutrient, and organic matter losses in an olive orchard on a sandy loam soil. Soil Till. Res., 106, 137-144. [CrossRef] [Google Scholar]
- Gruber S., Claupein W., 2009. Effect of tillage intensity on weed infestation in organic farming. Soil Till. Res., 105, 104-111. [CrossRef] [Google Scholar]
- Gucci R., Caruso G., Bertolla C., Urbani S., Tatichi A., Esposto S., Servili M., Sifola M.I., Pellegrini S., Pagliai M., Vignozzi N., 2012. Changes of soil properties and tree performances induced by soil management in a high density olive orchard. Eur. J. Agron., 41, 18-27. [Google Scholar]
- Hussain I., Singh N.B., Singh A., Singh H., 2017. Allelopathic potential of sesame plant leachate against Cyperus rotundus L. Ann. Agrar. Sci., 15, 141-147. [CrossRef] [Google Scholar]
- Konvalina P., Kopecký M., Bernas J., Moudrý J., Suchý K., Machková B., 2016. Weed competitiveness of winter and spring wheat in organic farming. Lucrări Ştiinţifice. 59, 103-108. [Google Scholar]
- Legere A., Shirtliffe S.J., Vanasse A., Gulden R.H., 2013. Extreme grain based cropping systems: when herbicide-free weed management meets conservation tillage in Northern climates. Weed Technol., 27, 204-211. [CrossRef] [Google Scholar]
- Lipecki J., Berbeć S., 1997. Soil management in perennial crops: orchards and hop gardens. Soil Till. Res., 43, 169-184. [CrossRef] [Google Scholar]
- Martínez J.R.F., Zuazo V.H.D., Raya A.M., 2006. Environmental impact from mountainous olive orchard under different soil management systems (SE Spain). Sci. Total Environ., 358, 46-60. [CrossRef] [PubMed] [Google Scholar]
- Montanaro G., Celano G., Dichio B., Xiloyannis C., 2010. Effect of soil-protecting agricultural practices on soil organic carbon and productivity in fruit tree orchards. Land Degrad. Dev., 21, 132-138. [Google Scholar]
- Monteiro A., Lopes C.M., 2007. Influence of cover crops on water use and performance of vineyard in Mediterranean Portugal. Agric. Ecosyst. Environ., 121, 336-342. [Google Scholar]
- Moreno B., Garcia-Rodriguez S., Cañizares R., Castro J., Benítez E., 2009. Rainfed olive farming in South-eastern Spain: long-term effect of soil management on biological indicators of soil quality. Agr. Ecosyst. Environ., 131, 333-339. [CrossRef] [Google Scholar]
- Mupondwa E., Li X., Boyetchko S., Hynes R., Geissler J., 2015. Technoeconomic analysis of large scale production of preemergent Pseudomonas fluorescens microbial bioherbicide in Canada. Bioresour. Technol., 175, 517-528. [Google Scholar]
- Pacanoski Z., 2011. Bioherbicides -a real or virtual measure for efficient weed control? Herbologia, 12, 103-114. [Google Scholar]
- Ramos M.E., Robles A.B., Sánchez-Navarro A., González-Rebollar J.L., 2011. Soil responses to different management practices in rainfed orchards in semiarid environments. Soil Till. Res., 112, 85-91. [CrossRef] [Google Scholar]
- Rodrigues M.A., Cabanas J., Lopes J.I., Pavão F., Aguiar C.F., Arrobas M., 2009. Ground cover and dynamic of weeds after the introduction of herbicides as soil management systems in rainfed olive orchards. Rev. Ciênc. Agrár., XXXII(2), 30-42. [Google Scholar]
- Rodrigues M.A., Dimande P., Pereira E., Ferreira I.Q., Freitas S., Correia C.M., Moutinho-Pereira J., Arrobas M., 2015a. Earlymaturing annual legumes: an option for cover cropping in rainfed olive orchards. Nutr. Cycl. Agroecosys., 103, 153-166. [CrossRef] [Google Scholar]
- Rodrigues M.A., Ferreira I.Q., Freitas S., Pires J., Arrobas M., 2015b. Self-reseeding annual legumes for cover cropping in rainfed managed olive orchards. Spanish J. of Agric.Res., 13(2), e0302, 13 pages. [CrossRef] [Google Scholar]
- Rodrigues M.A., Lopes J.I., Pavão F.M., Cabanas J.E., Arrobas M., 2011. Effect of soil management on olive yield and nutritional status of trees in rainfed orchards. Commun. Soil Sci. Plant Anal., 42, 993-2011. [Google Scholar]
- Tigre R.C., Pereira E.C., da Silva N.H., Vicente C., Legaz M.E., 2015. Potential phenolic bioherbicides from Cladonia verticillaris produce ultrastructural changes in Lactuca sativa seedlings. S. Afr. J. Bot., 98, 16-25. [CrossRef] [Google Scholar]
Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.
Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.
Initial download of the metrics may take a while.