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Catégories principales > 06 - AGRICULTURE. FORÊTS. PÊCHES > 6.4 - Production Agricole. Système de Production
6.4 - Production Agricole. Système de Production |
Documents disponibles dans cette catégorie (3106)
Article
Y. Zhang ; L. Pichon ; S. Roux ; A. Pellegrino ; T. Simonneau ; B. Tisseyre |Inverse modeling (IM) is a valuable tool in agriculture for estimating model parameters that aid in decision-making. It is particularly useful when parameters cannot be directly measured or easily estimated due to logistical constraints in agric[...]Article
G. Billen ; E. Aguilera ; R. Einarsson ; J. Garnier ; S. Gingrich ; B. Grizzetti ; L. Lassaletta ; J. Le Noë ; A. Sanz-Cobena |The publication of the European Commission's Farm to Fork Strategy has sparked a heated debate between those who advocate the intensification of agriculture in the name of food security and those who recommend its de-intensification for environm[...]Article
The main challenge in the durum wheat production chain is to capture as much as possible of the yield potential, whilst supporting long-term sustainability. The present work mainly aims at assessing the environmental performances of organic, bio[...]E-Book
H.S. Jatav ; V.D. Rajput ; T. Minkina ; E.D. van Hullebusch ; A. Dutta | Singapour [Singapour] : Springer | Sustainable Development and Biodiversity | 2024This edited book brings out comprehensive insights on agro-forestry systems to cope up climate change globally. The main essence of this book is to unfurl the positive sides of agri-silvipastoral system to reduce greenhouse gases (GHGs) and temp[...]Article
P. Garofalo ; M. Parlavecchia ; L. Giglio ; I. Campobasso ; A.V. Vonella ; M. Botta ; T. Tadiello ; V. Tucci ; F. Fornaro ; R. Leogrande ; C. Vitti ; A. Perego ; M. Acutis ; D. Ventrella |In anticipation of climate changes, strategic soil management, encompassing reduced tillage and optimized crop residue utilization, emerges as a pivotal strategy for climate impact mitigation. Evaluating the transition from conventional to conse[...]Article
The intensification of Mediterranean farming systems has adversely affected the environment. As a result, climate change, soil and land degradation, and biodiversity loss have been exacerbated. A potential solution for addressing these challenge[...]Article
I. Pardo ; S. Zabalza ; A. Berastegi ; R. Ripoll-Bosch ; C. Astrain |The concept of High Nature Value (HNV) farming hinges on the causality between agroecosystems with low intensity of management and the corresponding environmental outcomes, including high levels of biodiversity and the presence of semi-natural h[...]Article
This paper sheds light on the integration of digitalisation in multifunctional and diversified agriculture. In this empirical work based on socio-cyber-physical assemblage thinking, first we found that on-site material and immaterial conditions [...]Article
In rural areas of developing countries, more than 70% of the population still depends on agriculture. However, economic crises, unscientific land allocation and climate change issues have hindered attempted gains in agricultural productivity and[...]Article
In rural areas of developing countries, more than 70% of the population still depends on agriculture. However, economic crises, unscientific land allocation and climate change issues have hindered attempted gains in agricultural productivity and[...]Article
In recent years, the primary sector in Italy and elsewhere has been profoundly affected by climate change and a deep economic crisis, mainly linked to stagnating prices and rising production costs. Because of this situation, we are witnessing re[...]Article
Despite numerous published literature on the impacts of agriculture on water quality, knowledge gaps persist regarding which farming systems are of most concern for their impact on water quality, which would allow water resource planners to bett[...]Rapport, Expertise, Working Paper
Article
Z.H. Zul Azlan ; S.N. Junaini ; N.A. Bolhassan ; R. Wahi ; M.A. Arip |As climate change and population growth intensify, the agricultural sector's need for sustainable solutions is paramount. This paper presents an overview of smart agriculture, a strategy leveraging technology and data analytics, and its potentia[...]Article
J.C. Moreno ; M. Berenguel ; J.G. Donaire ; F. Rodriguez ; J.A. Sánchez-Molina ; J.L. Guzmán ; C.L. Giagnocavo |CONTEXT This research paper details the response to a central challenge of the digitalization of agricultural systems which stems from information overload and the broad heterogeneity of agricultural technologies and the classification thereof.[...]E-Book
S. Krishnan, ed. ; A.J. Anand, ed. ; N. Prasanth, ed. ; S. Goundar, ed. ; C. Ananth, ed. | Boca Raton [États-Unis] : CRC Press | 2024Predictive Analysis in Smart Agricultureexplores computational engineering techniques and applications in agriculture development. Recent technologies such as cloud computing, IoT, big data, and machine learning are focused on for smart agricult[...]Ouvrage
S. Lamine ; P.K. Srivastava ; A. Kayad ; F. Muñoz-Arriola ; P.C. Pandey | Oxford [Royaume-Uni] : Academic Press | Earth Observation Series | 2024Remote Sensing in Precision Agriculture: Transforming Scientific Advancement into Innovation compiles the latest applications of remote sensing in agriculture using spaceborne, airborne and drones geospatial data. The book presents case studies[...]Article
S. Balyan ; H. Jangir ; S.N. Tripathi ; A. Tripathi ; T. Jhang ; P. Pandey |Agriculture is essential to the existence of the human race, as well as the foundation of our civilization, because it provides food, fuel, fiber, and other resources necessary for survival; however, it is facing critical challenges due to anthr[...]Article
A. Mancini ; F. Solfanelli ; L. Coviello ; F.M. Martini ; S. Mandolesi ; R. Zanoli |Yield prediction is a crucial activity in scheduling agronomic operations and in informing the management and financial decisions of a wide range of stakeholders of the organic durum wheat supply chain. This research aims to develop a yield fore[...]Article
Sustainability and resilience against climate change provided by a territorial crop-livestock system
The development of territorial crop-livestock systems where exchanges between crops and livestock farms are managed in a synergistic way is seen as an opportunity to increase the sustainability and resilience of specialized agricultural systems [...]Article
Agricultural nonpoint source (NPS) pollution leads to water quality degradation. While agriculture is faced with the challenge of feeding a growing population in a changing climate, farmers must also strive to minimize adverse impacts of agricul[...]Article
R. Matysik-Pejas ; M. Bogusz ; K. Daniek ; M. Szafranska ; L. Satola ; A. Krasnodebski ; P. Dziekanski |The level of agricultural development in European Union countries is characterized by great diversity. This is due to differences in natural conditions, the type of agricultural production, agrarian fragmentation, and the level of economic devel[...]Article
D. Scordia ; S.A. Corinzia ; J. Coello ; R. Vilaplana Ventura ; D.E. Jiménez-De-Santiago ; B. Singla Just ; O. Castaño-Sánchez ; C. Casas Arcarons ; M. Tchamitchian ; L. Garreau ; M. Emran ; S.Z. Mohamed ; M. Khedr ; M. Rashad ; R.S. Lorilla ; A. Parizel ; G. Mancini ; A. Iurato ; S. Ponsa ; C. Dimauro ; F. Gresta ; S.L. Cosentino ; G. Testa |Agroforestry is gaining interest due to its potential in enhancing climate resilience and sustainability of farming systems. In this meta-analysis, the crop yield in agroforestry system compared to the control (sole crop) from thirty-six experim[...]Article
S. Troiano ; M. Carzedda ; F. Marangon |Precision agriculture is expected to support and strengthen the sustainability of food production. In spite of the demonstrated benefits of the application of Information Technology to improve agricultural practices, such as yield increase and i[...]Article
A. Dolinska ; E. Hassenforder ; A.M. Loboguerrero ; B. Sultan ; J. Bossuet ; J. Cottenceau ; M. Bonatti ; J. Hellin ; I. Mekki ; A. Drogoul ; V. Vadez |CONTEXT To contribute to building sustainable and effective climate change adaptation solutions avoiding usability gap, it is largely recommended to engage in the process of co-production, integrating expertise and knowledge from various academi[...]Article
The European Green Deal sets a target of at least 25% of the total EU agricultural land under organic farming by 2030. In the case of the Spanish olive sector, organic olive farming accounts for barely 10% of the national agricultural area dedic[...]Article
H. Cicek ; E. Topp ; T. Plieninger ; J.M. Blanco-Moreno ; I. Gultekin ; H.C. Mohamed ; O. El Gharras |Conservation agriculture (CA) is the key agricultural soil management approach for Mediterranean rainfed systems facing extreme droughts and soil degradation. Yet, CA uptake and applicability is still marginal and disputed in the Mediterranean r[...]Article
D. Pasquel ; D. Cammarano ; S. Roux ; A. Castrignanò ; B. Tisseyre ; M. Rinaldi ; A. Troccoli ; J.A. Taylor |CONTEXT Most crop models are designed for point-based modeling and to simulate agronomic variables on their native spatial footprint, i.e. typically as a uniform field-scale value. Precision agriculture needs crop model simulations at sub-field [...]Article
Climate change is expected to affect the agricultural sector in ways that are often unclear to predict. If in the short- and medium-terms farmers may adapt to climate change by adjusting their agricultural practices, in the long-term, these adju[...]Article
L. El Ansari ; R. Chenoune ; Y.A. Yigezu ; A.M. Komarek ; C. Gary ; H. Belhouchette |CONTEXT Farmers in the MENA (Middle East and North Africa) region face several interrelated challenges including natural resource depletion, low crop productivity, and food and nutrition insecurity. To address some of these challenges, governmen[...]