TY - JOUR AU - Novák, Tibor József AU - Tóth, Tibor AU - Makó, András AU - Kocsis, Mihály AU - Bakacsi, Zsófia AU - Bidló, András AU - Barta, Károly AU - Czigány, Szabolcs AU - Tóth, Gergely AU - Horváth, Adrienn AU - Hernádi, Hilda Ágnes TI - A hazai genetikai talajosztályozás megújításának szükségessége - 1. : A nevezéktan és a struktúra korrekcióra szoruló elemeinek azonosítása [The necessity of the renewal of the Hungarian genetic soil classification system - 1. Identification of the elements of the nomenclature and structure to be corrected] JF - AGROKÉMIA ÉS TALAJTAN J2 - AGROKÉMIA ÉS TALAJTAN VL - 73 PY - 2024 IS - OnlineFirst PG - 27 SN - 0002-1873 DO - 10.1556/0088.2024.00160 UR - https://m2.mtmt.hu/api/publication/34629817 ID - 34629817 AB - A tanulmány a magyar genetikai osztályozás sok szempontból kritizált rendszerének következetlenségeit, illetve ellentmondásait elemzi azzal a szándékkal, hogy a rendszer fő jellemzőinek: a talajtaxonok elnevezésének és tartalmának megőrzése mellett szakmai párbeszédet indítson a hibák kijavításának lehetőségéről és a rendszer megújításáról. Rámutattunk a nevében és koncepciójában genetikus, szerkezetében hierarchikus osztályozási rendszer hibrid jellegére: arra, hogy a fő genetikus szempont csak a főtípusok aggregációs szintjén érvényesül maradéktalanul, míg a típusoknál már mintegy egyharmad arányban diagnosztikus szempontok jelentik az elkülönítés alapját. Alsóbb hierarchiaszinteken (altípus, változat) pedig csaknem tisztán diagnosztikus az osztályozás. Listába rendeztük azokat a problémás típus, altípus és változati elnevezéseket, amelyek több hierarchiaszinten azonos névvel, és esetleg eltérő tartalommal fordulnak elő, illetve azonos hierarchiaszinten, de eltérő definíciókkal szerepelnek, vagy éppen szinonímnak tekinthetők, az eltérő elnevezés mögött rejlő azonos tartalom miatt. A vitacikk szándéka, hogy a kiszűrt hibák, következetlenségek széleskörű szakmai egyeztetést követően javításra kerüljenek. LA - Hungarian DB - MTMT ER - TY - JOUR AU - Terribile, Fabio AU - Acutis, Marco AU - Agrillo, Antonella AU - Anzalone, Erlisiana AU - Azam‐Ali, Sayed AU - Bancheri, Marialaura AU - Baumann, Peter AU - Birli, Barbara AU - Bonfante, Antonello AU - Botta, Marco AU - Cavaliere, Federica AU - Colandrea, Marco AU - D'Antonio, Amedeo AU - De Mascellis, Roberto AU - De Michele, Carlo AU - De Paoli, Gloria AU - Monica, Camilla Della AU - Di Leginio, Marco AU - Ferlan, Mitja AU - Ferraro, Giuliano AU - Florea, Anca AU - Hermann, Tamás AU - Hoenig, Heike AU - Jahanshiri, Ebrahim AU - Jevšenak, Jernej AU - Kárpáti, Veronika AU - Langella, Giuliano AU - Le, Quang Bao AU - Lezzi, Daniele AU - Loishandl, Harald AU - Loudin, Sarah AU - Manna, Piero AU - Marano, Gina AU - Marotta, Luigi AU - Merticariu, Vlad AU - Mileti, Florindo Antonio AU - Minieri, Luciana AU - Misev, Dimitar AU - Montanarella, Luca AU - Munafò, Michele AU - Neuwirth, Martin AU - Orefice, Nadia AU - Pácsonyi, Imre AU - Panagos, Panos AU - Perego, Alessia AU - Huu, Bang Pham AU - Pinto, Francesco AU - Prebeck, Kathrin AU - Puig, Angela AU - Pump, Judit AU - Schillaci, Calogero AU - Simončič, Primož AU - Skudnik, Mitja AU - Stankovics, Petra AU - Tóth, Gergely AU - Tramberend, Peter AU - Vingiani, Simona AU - Vuolo, Francesco AU - Zucca, Claudio AU - Basile, Angelo TI - The LANDSUPPORT geospatial decision support system ( S‐DSS ) vision: Operational tools to implement sustainability policies in land planning and management JF - LAND DEGRADATION & DEVELOPMENT J2 - LAND DEGRAD DEV VL - 1 PY - 2023 SP - 1 EP - 22 PG - 22 SN - 1085-3278 DO - 10.1002/ldr.4954 UR - https://m2.mtmt.hu/api/publication/34417635 ID - 34417635 AB - Nowadays, there is contrasting evidence between the ongoing continuing and widespread environmental degradation and the many means to implement environmental sustainability actions starting from good policies (e.g. EU New Green Deal, CAP), powerful technologies (e.g. new satellites, drones, IoT sensors), large databases and large stakeholder engagement (e.g. EIP‐AGRI, living labs). Here, we argue that to tackle the above contrasting issues dealing with land degradation, it is very much required to develop and use friendly and freely available web‐based operational tools to support both the implementation of environmental and agriculture policies and enable to take positive environmental sustainability actions by all stakeholders. Our solution is the S‐DSS LANDSUPPORT platform, consisting of a free web‐based smart Geospatial CyberInfrastructure containing 15 macro‐tools (and more than 100 elementary tools), co‐designed with different types of stakeholders and their different needs, dealing with sustainability in agriculture, forestry and spatial planning. LANDSUPPORT condenses many features into one system, the main ones of which were (i) Web‐GIS facilities, connection with (ii) satellite data, (iii) Earth Critical Zone data and (iv) climate datasets including climate change and weather forecast data, (v) data cube technology enabling us to read/write when dealing with very large datasets (e.g. daily climatic data obtained in real time for any region in Europe), (vi) a large set of static and dynamic modelling engines (e.g. crop growth, water balance, rural integrity, etc.) allowing uncertainty analysis and what if modelling and (vii) HPC (both CPU and GPU) to run simulation modelling ‘on‐the‐fly’ in real time. Two case studies (a third case is reported in the Supplementary materials ), with their results and stats, covering different regions and spatial extents and using three distinct operational tools all connected to lower land degradation processes (Crop growth, Machine Learning Forest Simulator and GeOC), are featured in this paper to highlight the platform's functioning. Landsupport is used by a large community of stakeholders and will remain operational, open and free long after the project ends. This position is rooted in the evidence showing that we need to leave these tools as open as possible and engage as much as possible with a large community of users to protect soils and land. LA - English DB - MTMT ER - TY - GEN ED - FAO, n.a. / Collaborative Organization ED - ICBA, n.a. / Collaborative Organization AU - Fatma, Rekik AU - Bas, Bruning AU - Francisco, Pedrero Salcedo AU - Tóth, Gergely AU - Tommaso, Letterio AU - Ahmed, Attia AU - Marco, Arcieri AU - Angelika, Kaus AU - Alon, Ben-Gal TI - Thematic 1: Farmers’ guidelines on soil and water management in salt-affected areas PY - 2023 PG - 62 SN - 9789251376027 DO - 10.4060/cc4200en UR - https://m2.mtmt.hu/api/publication/34398041 ID - 34398041 LA - English DB - MTMT ER - TY - JOUR AU - Kurniawati, Ari AU - Stankovics, Petra AU - Hilmi, Yahya Shafiyuddin AU - Tóth, Gergely AU - Smol, Marzena AU - Tóth, Zoltán TI - Understanding the future of bio-based fertilisers. The EU's policy and implementation TS - The EU's policy and implementation JF - SUSTAINABLE CHEMISTRY FOR CLIMATE ACTION J2 - SUSTAIN CHEM CLIM ACT VL - 3 PY - 2023 PG - 9 SN - 2772-8269 DO - 10.1016/j.scca.2023.100033 UR - https://m2.mtmt.hu/api/publication/34117354 ID - 34117354 LA - English DB - MTMT ER - TY - JOUR AU - Kurniawati, Ari AU - Tóth, Gergely AU - Ylivainio, Kari AU - Tóth, Zoltán TI - Opportunities and challenges of bio-based fertilizers utilization for improving soil health JF - ORGANIC AGRICULTURE J2 - ORGANIC AGRICULTURE VL - 13 PY - 2023 IS - 3 SP - 335 EP - 350 PG - 16 SN - 1879-4238 DO - 10.1007/s13165-023-00432-7 UR - https://m2.mtmt.hu/api/publication/33822339 ID - 33822339 AB - Bio-based fertilizers (BBFs) have been promoted as a solution to help manage bio-waste problems and improve soil health conditions. Their potential is to replace mineral fertilizers due to nonrenewable energy dependency and the accumulation that threatens environmental issues. Currently, laboratory and field-based literature have been growing since European Union (EU) looks BBFs as the future of agriculture bio-based products. Nevertheless, it is worth to summarizing the results on a regular basis. The added value of this work is to study the opportunities of bio-based fertilizer utilization to sustain plant productivity and investigate the challenges to water footprints and human health. This study found that contamination of heavy metals and pathogens is the main problems of BBFs implementation which need more attention to develop the technology process including the environmental risk assessments. Furthermore, compared to mineral fertilizers, BBFs have obstacles to getting social acceptance due to the challenges of transportation and production cost, the concentration of nutrients, matching crops, and policy framework. To sum up, BBF is a long-run scheme that should be started to tackle global issues since the potency as energy alternative sources to support the circular economy paradigm. LA - English DB - MTMT ER - TY - CONF AU - Csikós, Nándor AU - Tóth, Brigitta AU - Hermann, Tamás AU - Laborczi, Annamária AU - Sieglerné Matus, Judit AU - Pásztor, László AU - Szatmári, Gábor AU - Takács, Katalin AU - Tóth, Gergely TI - Cropland productivity evaluation based on earth observation and direct measurements, a 100m resolution country assessment T2 - EGU General Assembly 2023: Abstracts PB - European Geosciences Union (EGU) C1 - München PY - 2023 DO - 10.5194/egusphere-egu23-4318 UR - https://m2.mtmt.hu/api/publication/33787087 ID - 33787087 LA - English DB - MTMT ER - TY - JOUR AU - Szigeti, Nóra AU - Hermann, Tamás AU - Juhos, Katalin AU - Tóth, Gergely TI - Distribution pattern of major crops and their cultivation intensity indicated by soil phosphorus concentrations in Europe JF - AGRONOMY JOURNAL J2 - AGRON J VL - 115 PY - 2023 IS - 4 SP - 1678 EP - 1693 PG - 16 SN - 0002-1962 DO - 10.1002/agj2.21337 UR - https://m2.mtmt.hu/api/publication/33715311 ID - 33715311 LA - English DB - MTMT ER - TY - JOUR AU - Csikós, Nándor AU - Tóth, Brigitta AU - Hermann, Tamás AU - Laborczi, Annamária AU - Sieglerné Matus, Judit AU - Pásztor, László AU - Szatmári, Gábor AU - Takács, Katalin AU - Tóth, Gergely TI - Cropland Productivity Evaluation: A 100 m Resolution Country Assessment Combining Earth Observation and Direct Measurements JF - REMOTE SENSING J2 - REMOTE SENS-BASEL VL - 15 PY - 2023 IS - 5 SP - 1236 PG - 17 SN - 2072-4292 DO - 10.3390/rs15051236 UR - https://m2.mtmt.hu/api/publication/33660630 ID - 33660630 N1 - Centre for Agricultural Research, Institute for Soil Sciences, Hermann Otto 15., Budapest, H-1022, Hungary Institute of Advanced Studies, Chernel u. 14., Kőszeg, H-9730, Hungary Export Date: 12 June 2023 Correspondence Address: Csikós, N.; Centre for Agricultural Research, Hermann Otto 15., Hungary; email: csikos.nandor@atk.hu AB - A methodology is presented for the quantitative assessment of soil biomass productivity at 100 m spatial resolution on a national scale. The traditional land evaluation approach—where crop yield is the dependent variable—was followed using measured yield and net primary productivity data derived from satellite images, together with digital soil and climate maps. In addition to characterizing of soil biomass productivity based on measured data, the weight of soil properties on productivity was also quantified to provide measured soil health and soil quality indicators as an information base for designing sustainable land management practices. To produce these results, we used only the Random Forest method for our calculations. The study considers high-input agriculture, which is predominant in the country. Biomass productivity indices for the main crops (wheat, maize and sunflowers) and general productivity indices were calculated for the whole agricultural area of Hungary. Results can be implemented in cadastral systems, in applied in agricultural and rural development programs. The assessment can be repeated for monitoring purposes to support general monitoring objectives as well as for reporting in relation to the United Nations Sustainable Development Goals. However, on the basis of the results, we also propose a method for periodically updating the assessment, which can also be used for monitoring biomass productivity in the context of climate change, land degradation and the development of cultivation technology. LA - English DB - MTMT ER - TY - JOUR AU - Csikós, Nándor AU - Tóth, Gergely TI - Concepts of agricultural marginal lands and their utilisation: A review JF - AGRICULTURAL SYSTEMS J2 - AGR SYST VL - 204 PY - 2023 PG - 11 SN - 0308-521X DO - 10.1016/j.agsy.2022.103560 UR - https://m2.mtmt.hu/api/publication/33249486 ID - 33249486 LA - English DB - MTMT ER - TY - GEN AU - Balázs, Pál AU - Hermann, Tamás AU - Stankovics, Petra AU - Zugfil-Maletics, Virág AU - Bidló, András AU - Tóth, Gergely TI - Landscape changes in the Szigetköz area (Hungary) and their effects on carbon cycle CY - 21-25 November 2022 PY - 2022 UR - https://m2.mtmt.hu/api/publication/33365879 ID - 33365879 LA - English DB - MTMT ER -