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Institute of Soil Science and Plant Cultivation

State Research Institute

 

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  • Bibliografia Publikacji Pracowników IUNG-PIB jest zbiorem opisów bibliograficznych publikacji pracowników Instytutu.
  • Czasopisma naukowe: Polish Journal of Agronomy (kontynuacja Pamiętnika Puławskiego); Nawozy i Nawożenie ( Fertilizers and Fertilization)
  • "Pamiętnik Puławski" jest kontynuacją ukazującego się w okresie międzywojennym "Pamiętnika PINGW". Publikacja zawiera syntetyczne opracowania wyników badań prowadzonych przez pracowników IUNG, opatrzone streszczeniami w języku angielskimi i rosyjskim. W latach 1961-2010 opublikowano 152 zeszyty "Pamiętnika Puławskiego". Kontynuatorem tej publikacji jest czasopismo "Polish Journal of Agronomy"
  • Zbiór zawiera instrukcje upowszechnieniowe, wdrożeniowe, zalecenia agrotechniczne, materiały szkoleniowe.
  • Zbiór zawiera prace doktorskie obronione w IUNG-PIB oraz Monografie i Rozprawy Naukowe

Recent Submissions

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Development of Gluten-Free Corn Snacks Enriched with White Mulberry Fruit: Polyphenolic Composition, Antioxidant Activity and In Vitro Gastrointestinal Stability of Phenolic Compounds
(MDPI, 2026) Kasprzak-Drozd, Kamila; Ziółkiewicz, Agnieszka; Wojtunik-Kulesza, Karolina; Gancarz, Marek; Kowalska, Iwona; Misiurek, Justyna; Wójciak, Magdalena; Sowa, Ireneusz; Oniszczuk, Tomasz; Combrzyński, Maciej; Oniszczuk, Anna
The aim of this study was to evaluate the effect of adding white mulberry (Morus alba L.) fruit to extruded corn snacks on their polyphenol profile, antioxidant properties, acetylcholinesterase (AChE) inhibitory activity and the preservation of phenolic compounds in an in vitro digestion model. Mixtures of corn grits with 0, 10, 15 and 20% dried mulberry fruit were extruded at temperatures of 100, 120 and 140 ◦C, and then the total polyphenol content (TPC) and antioxidant activity (IC50 for DPPH) were determined. For selected samples (0%, 140—3E; 15% mulberry, 140—9E; mulberry—13E), further antioxidant tests (FRAP, CUPRAC, Fe2+ chelation) were performed, the phenolic compound profile (UHPLC) and AChE inhibition were assessed, and a two-step in vitro digestion was conducted. The addition of mulberry significantly increased TPC- and free-radical-scavenging capacity compared to the control sample, with snacks containing 15% mulberry extruded at 140 ◦C showing approximately a 3.5-fold higher TPC than the control, while dried mulberry fruit itself exhibited about a five-fold higher TPC than this enriched snack. Among the snacks, the most favorable DPPH-radical-scavenging effect was obtained for the variant with 20% mulberry at 120 ◦C (IC50 = 0.176 mg/mL), whereas the mulberry fruit extract reached an IC50 of 0.0926 mg/mL. In a two-step in vitro digestion model, the mulberry-enriched snack with 15% fruit retained 69.3% of its initial TPC after the gastric phase and 33.3% after the intestinal phase, compared with 55.0% and 20.0%, respectively, for the control snack, confirming a partial but meaningful preservation of phenolic compounds under simulated gastrointestinal conditions. UHPLC analysis confirmed that mulberry and the enriched snacks are a rich source of chlorogenic acids and their isomers, as well as quercetin and kaempferol glycosides, which largely survived the two-step in vitro digestion, despite an observed decrease in TPC after the gastric stage and a further reduction after the intestinal stage. At the same time, mulberry extract and mulberry-enriched snacks exhibited high antioxidant activity in all tests conducted and in vitro AChE inhibitory activity, suggesting that Morus alba L. fruit has the potential to be used as a natural functional ingredient in the production of gluten-free snacks with antioxidant and potentially neuroprotective properties.
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Persistence, Resilience, and Economic Outcomes of CAP-Supported Organic Farms: Evidence from Poland
(MDPI, 2026) Zieliński, Marek; Gołębiewska, Barbara; Jadczyszyn, Jan; Pimenow, Sergiusz; Sobierajewska, Jolanta; Adamski, Marcin; Tyburski, Józef
Organic farming in the European Union is strongly shaped by Common Agricultural Policy (CAP) support, yet participation durability remains less examined than supported organic area or organic–conventional comparisons. This study assesses whether the length of participation in CAP-supported organic farming is associated with the organizational, production, and economic outcomes of organic farms in Poland. It applies a two-level approach: CAP support trajectories based on ARMA data for 2008–2025 and organic production duration based on Polish FSDN data for 2008–2022. A comparative analysis was conducted of the characteristics of the potential, organization, and economic situation of farms with varying levels of persistence within the organic farming support system. The frequent variation in the results obtained indicates the distinct characteristics of these groups of farms. The results show that organic farming in Poland is highly CAP-dependent and follows an unstable trajectory, with expansion up to 2012–2013, subsequent decline, and renewed growth after 2019. Longer participation is associated with differences in land resources, supported organic UAA, ANCs conditions, production organization, and livestock presence, indicating both adaptation and structural selectivity. FSDN data show that fully organic farms have lower land and labor productivity than conventional farms, but persistent fully organic farms achieve similar income per hectare when subsidies are included; without subsidies, their income remains much weaker. The findings indicate that the evaluation of organic farming support should move beyond beneficiary counts and certified organic area to include participation durability, production-system coherence, economic viability, and territorial embeddedness. More differentiated instruments are needed to strengthen durable, knowledge-intensive, and territorially embedded organic farming systems.
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The core microbiome of fluvisols from the Vistula River Valley: relationships between bacteria and basic soil properties
(TÜBİTAK (Scientific and Technological Research Council of Turkey / Turecka Rada Badań Naukowych i Technologicznych), 2026) Furtak, Karolina; Marzec-Grządziel, Anna; Grządziel, Jarosław; Niedźwiecki, Jacek
Fluvisols develop in river valleys through the accumulation of alluvial sediments. They are characterised by high fertility and are extensively used for agriculture. This study aimed to identify the core microbiome of fluvisols in the Vistula Valley and to examine its relationship with the basic physicochemical properties of the soils. Six types of fluvisol (very light, light, medium, and heavy) from four locations in Lublin province were analysed, with samples collected in 2018 and 2022. The microbiome structure was determined by sequencing the V3–V4 region of the 16S rRNA gene and was compared with soil parameters such as pH, electrical conductivity, organic matter, nitrogen, carbon, and metal contents. A core microbiome, dominated by Acidobacteria_Gp6 (ASV_018) and Rhizobiales (ASV_001), was identified in all samples. Together with Actinobacteria and Proteobacteria, these taxa perform key ecological functions, including nutrient cycling, supporting plant growth, and maintaining soil ecosystem stability. The results confirm the hypothesis that specific bacterial groups within the core fluvisol microbiome contribute to its high quality and agricultural suitability. The data provide a basis for further research into the functional role of the floodplain soil microbiome and its resilience to periodic flooding.
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A Multiple Soil Threats Assessment for Europe by 2050
(Wiley, 2026-06-24) Coblinski, João Augusto; Cornu, Sophie; Pindral, Sylwia; Borůvka, Lubos; Medina-Roldán, Eduardo; Reyes-Rojas, Jessica; Saby, Nicolas P. A.
European soils are exposed to multiple interacting soil threats (STs), challenging the European Commission's objective of restoring healthy soils by 2050. This study provides the first integrated EU-scale projection of four major soil threats—soil compaction, soil organic carbon loss, soil erosion and soil sealing—under two IPCC climate scenarios (SSP1-2.6 and SSP5-8.5), while accounting for land-use change. Unlike previous assessments that examined threats separately, this research analyzes their co-occurrence through the concept of “soil threat bundles”. Using digital soil mapping and a k-means clustering approach, the study identified 20 ST bundles and their spatial variation across Europe by 2050. Results show that around 40% of EU soils will not face significant threats, while approximately one-third will experience only one major threat. 22% of soils will be exposed to two simultaneous threats, and between less than 1% (SSP1-2.6) and more than 5% (SSP5-8.5) will experience three interacting threats. Overall, nearly 60% of EU soils could be affected by at least one threat by 2050, a proportion comparable to current estimates of unhealthy soils in Europe. The findings highlight strong differences between climate scenarios. Under SSP1-2.6, land-use change is the second main driver of soil threat distribution. In contrast, under SSP5-8.5, climate change becomes the second main driver, intensifying soil compaction, SOC loss, and erosion, particularly in Central Europe, western England, and the Pyrenees. The study emphasizes the importance of integrated assessments to design targeted soil protection policies within the EU Green Deal and Soil Strategy for 2050.
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Spatially constrained optimisation of sustainable maize straw availability for bio-based processing systems
(Elsevier, 2026) Abudu, Dan; Szufa, Szymon; Rozakis, Stelios; Piersa, Piotr; Borzęcka, Magdalena; Mocny, Krystian; Onwudili, Jude A.
The deployment of bioenergy and carbon removal systems depends critically on the availability of sustainable and reliable biomass feedstocks. However, most biomass assessments rest on theoretical, technical or even economic potential estimates that do not reflect real-world supply constraints. This study develops a spatially explicit framework to quantify sustainability-constrained, reliability-adjusted and mobilisation-aware biomass supply, translating resource availability into a bankable feedstock metric for infrastructure planning. The framework integrates Earth observation-based crop mapping, straw production estimation, environmental sustainability constraints, probabilistic reliability assessment (P80) and socio-economic mobilisation modelling within a unified workflow. It is applied to maize straw in Lodzkie Voivodeship in Poland, over the period 2020- 2025. Results show that technical straw potential ranged from 0.40 to 0.77 Mt yr 1 1 , sustainability constraints reduced this by 36-61%. Incorporating interannual variability further reduced supply by converting mean availability into a conservative P80 estimate and mobilisation constraints limited practically accessible biomass to approximately 15-25% of technical straw. These results demonstrate that only a fraction of theoretical biomass can be considered sustainable, dependable and contractable. Comparison with the feedstock requirement of a 10- t hr biochar facility (75 kt yr 1 ) shows that supply is sufficient under sustainability and reliability constraints but becomes highly constrained once mobilisation is considered. This highlights the importance of integrating environmental, temporal and behavioural constraints in biomass assessment. The proposed framework provides a transferable and compatible approach with Monitoring, Reporting and Verification (MRV) systems, linking biomass resource assessment to deployment-relevant decision-making and establishes a foundation for subsequent optimisation of distributed bioenergy supply systems.