Publications by authors named "Fabrizio Leteo"
The agricultural scenario of the upcoming decades will face major challenges for the increased and sustainable agricultural production and the optimization of the efficiency of water and fertilizer inputs. Considering the current and foreseen water scarcity in several marginal and arid areas and the need for a more sustainable farming production, the selection and development of cultivars suitable to grow under low-input conditions is an urgent need. In this study, we assayed 42 tomato genotypes for thirty-two morpho-physiological and agronomic traits related to plant, fruit, and root characteristics under standard (control) and no-nitrogen fertilization or water deficit (30% of the amount given to non-stressed trials) treatments in two sites (environments), which corresponded to organic farms located in Italy and Spain.
View Article and Find Full Text PDFTwo tomato genotypes were grown in open field by three cultivation systems (one conventional and two distinct organic for mulching) in three years, 2015, 2016 and 2017. Yields, sugars, organic acids, amino acids, ascorbic acid, biothiols, carotenoids and phenols were measured. Weather conditions largely differed among harvest years, with summer 2016 rainier and less warm, and an opposite summer 2017.
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- The text discusses the opportunities and challenges in agriculture, focusing on the increasing demand for sustainable food production, using a large collection of tomato varieties for research on important agricultural traits.
- A study involving 244 tomato accessions grown organically revealed significant phenotypic diversity and demonstrated that certain traits, like fruit weight, have high heritability, indicating strong genetic control.
- Genome-wide association studies (GWAS) identified 59 loci associated with specific flower and fruit traits, highlighting key genes linked to fruit characteristics and suggesting areas for future breeding efforts.
This paper explores the effect of agroecological service crops (ASCs), i.e., crops included in the crop rotation for their ecosystem services, terminated with an in-line tillage roller crimper (ILRC) on weed community composition and their functional traits in comparison to a tilled control without ASC.
View Article and Find Full Text PDFThe mycorrhizal fungi are symbiotic organisms able to provide many benefits to crop production by supplying a set of ecosystem functions. A recent ecological approach based on the ability of the fungi community to influence plant-plant interactions by extraradical mycelium development may be applied to diversified, herbaceous agroecosystems. Our hypothesis is that the introduction of a winter cereal cover crop (CC) as arbuscular mycorrhizal fungi (AMF)-host plant in an organic rotation can boosts the AMF colonization of the other plants, influencing crop-weed interference.
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- The study compared long-term organic and conventional farming methods in Italy, focusing on soil fertility and microbial community structure.
- Organic management showed higher availability of key nutrients and greater bacterial counts compared to conventional methods.
- Despite organic management leading to more fungal biomass, both systems had similar fungal species compositions, indicating that a decade of organic farming might not be enough time to significantly alter fungal community dynamics.
Article Synopsis
- A three-year study (2009-2011) evaluated the phytochemicals and antioxidant capacities of two green cauliflower varieties, HF1 Emeraude and Velox, grown organically versus conventionally.
- While conventional farming boosted yield, organic farming led to higher soluble solids and the organic plants showed better resilience to drought in the third year.
- Velox consistently outperformed Emeraude in phytochemical content and antioxidant capacity under organic conditions, indicating that organic farming can be beneficial for specific cauliflower genotypes.