01299nam a2200301 i 450099100176232970753620020507151430.0000905s1996 it ||| | ita 8814060266b11560368-39ule_instLE02724618ExLDip.to Studi Giuridiciita341.2422026CG-II/AUnione europea361259Codice dell'Unione europea :il trattato di Maastricht :il trattato istitutivo della Comunità europea come modificato dal trattato di Maastricht, annotato con la giurisprudenza della Corte di giustizia :i documenti rilevanti /[a cura di] Luigi Ferrari Bravo, Vincenzo Rizzo ; aggiornamento al 15.12.1995 coordinato da Francesco M. di MajoMilano :A. Giuffrè,1996viii, 354 p. ;20 cm.Unione europeaOrdinamentoDi Majo, Francesco M.Rizzo, VincenzoFerrari Bravo, Luigi.b1156036802-04-1402-07-02991001762329707536LE027 CG-II/A 581LE027-942le027-E0.00-l- 00000.i1176234202-07-02Codice dell'Unione europea191770UNISALENTOle02701-01-00ma -itait 0101672nas 2200385 n 450 99000890820040332120240229084428.00399-4236000890820FED01000890820(Aleph)000890820FED01000890820CNRP 0002238820161109b19761977km-y0itaa50------bafreFRauu--------Archives d'ophtalmologie [1976]1976-1977Paris[s.n.]0010008908192001Archives d'ophtalmologie et revue générale d'ophtalmologie2001Journal francais d'ophtalmologieArchives d'ophtalmologie [1976]617.7617.7ITACNP20090723http://acnp.cib.unibo.it/cgi-ser/start/it/cnr/dc-p1.tcl?catno=14163&person=false&language=ITALIANO&libr=&libr_th=unina1Biblioteche che possiedono il periodicoSE990008908200403321Biblioteca. Dipartimento di Scienze Oftalmologiche. Facoltà di Medicina e Chirurgia dell'Università Federico II di Napoli1976-1977.DMSOFDMSOFArchives d'ophtalmologie800329UNINA866-01NA170 Biblioteca. Dipartimento di Scienze Oftalmologiche. Facoltà di Medicina e Chirurgia dell'Università Federico II di NapoliVia Pansini,5, 80131 Napoli (NA)08174622970817462383itacnp.cib.unibo.itACNP Italian Union Catalogue of Serialshttp://acnp.cib.unibo.it/cgi-ser/start/it/cnr/df-p.tcl?catno=14163&language=ITALIANO&libr=&person=&B=1&libr_th=unina&proposto=NO03979nam 22003493a 450 991076583780332120250203235429.09783038976554303897655510.3390/books978-3-03897-655-4(CKB)5400000000000303(ScCtBLL)9021a9f2-c459-4a6d-86f8-cd71146e1d9e(OCoLC)1105805879(EXLCZ)99540000000000030320250203i20192019 uu enguru||||||||||txtrdacontentcrdamediacrrdacarrierFertilizer Application on Crop YieldJagadish TimsinaBasel, Switzerland :MDPI,2019.1 online resource (1 p.)Fertilizer application can increase crop yields and improve global food security, and thus has the potential to eliminate hunger and poverty. However, excessive amounts of fertilizer application can contribute to groundwater pollution, greenhouse gas emissions, eutrophication, deposition and disruptions to natural ecosystems, and soil acidification over time. Small farmers in many countries think inorganic fertilizers are expensive and degrade soils, and thus policymakers want to promote organic instead of inorganic fertilizers. To develop practical fertilizer recommendations for farmers, yield responses to applied fertilizers from inorganic and organic sources, indigenous nutrient supply from soil, and nutrient use efficiency require consideration. There is a lack of sufficient scientific understanding regarding the need and benefit of integrated nutrient management (i.e., judicious use of inorganic and organic sources of nutrients) to meet the nutrient demand of high-yielding crops, increase yields and profits, and reduce soil and environmental degradation. Inadequate knowledge has constrained efforts to develop precision nutrient management recommendations that aim to rationalize input costs, increase yields and profits, and reduce environmental externalities. This Special Issue of the journal provided some evidence of the usefulness of integrated nutrient management to sustain soil resources and supply nutrients to crops grown with major cereal and legume crops in some developing countries.soil organic matter; soil biota; soil acidity; soil erosion; fertilizer management; site-specific nutrient management; balanced use of fertilizers; integrated nutrient management; agronomic response; calcium; Copper; NPK amendments; Value Cost Ratio; Zinc; nitrogen use efficiency (NUE); nitrate assimilation; nitrate reductase activity; maize; nitrate; ammonia; NADH; NADH-dehydrogenase; Complex I; site-specific K management; soil K supply; maize yield response to K; maize crop manager; nutrient expert for maize; durum wheat; mineral N; organic N; S fertilization; grain quality; grain yield; phosphorous; potassium; corn-soybean rotation; management; production system; organic farming; conventional farming; organic nutrients; chemical fertilizers; global food demand; agroforestry system; evergreen agriculture; biofertilizer; Bacillus pumilus; growth promotion; N fertilizer; rice; yield; green manure; nitrogen uptake; Orychophragmus violaceus L.; soil nitrogen pools; grain yield; Zea mays L.; hybrid rice; K use efficiency; potassium; saline tract; soil N supply; soil N mineralization; N fertilization; potentially mineralizable N; humid Mediterranean climate; conservation agriculture; NUE; nitrogen recovery efficiency; nitrogen physiological recovery; wheat yields; Agrotain® urea; rice-wheat system; organic farming; forage legume; long-term productivity; soil health; economics; integrated nutrient management; rice; wheat; yield; net returns; soil health; sustainabilityTimsina Jagadish1266162ScCtBLLScCtBLLBOOK9910765837803321Fertilizer Application on Crop Yield3034323UNINA