Your search keyword '"Sunil, B. Ratna"' showing total 3 results

1. Significance of Phosphate Nano-Fertilizers Foliar Application: A Brief Real-Field Study of Quantitative, Physiological Parameters, and Agro-Ecological Diversity in Sunflower.

Author

Ernst, Dávid, Kolenčík, Marek, Šebesta, Martin, Ďurišová, Ľuba, Kšiňan, Samuel, Tomovičová, Lenka, Kotlárová, Nikola, Kalúzová, Mária, Černý, Ivan, Kratošová, Gabriela, Žitniak Čurná, Veronika, Ivanič Porhajašová, Jana, Babošová, Mária, Dobročka, Edmund, Qian, Yu, Swamiappan, Sasikumar, Illa, Ramakanth, Gayathri Radhakrishnan, Shankara, Sunil, B. Ratna, and Ducsay, Ladislav

Subjects

NORMALIZED difference vegetation index, SUNFLOWERS, SUSTAINABLE agriculture, OILSEED plants, COMMON sunflower, PHOTOSYNTHETIC rates

Abstract

One of the challenges in agriculture practices is guaranteeing an adequate and bioavailable phosphorus supply for plants on phosphorus-deficient soils. A promising alternative lies in the utilization of phosphate nano-fertilizers (NFs) through spray applications. Therefore, this short-term study aimed to investigate the yet undetermined widespread impact of P-NFs on crops characterized by broad leaves, an intensive rate of photosynthesis, and belonging to the oilseed plant, sunflower (Helianthus annuus L.). To achieve this, NFs were applied at lower concentrations of various phosphate-based NFs, including (i) nano-hydroxylapatite (nano-Hap) and (ii) a mixture of nano-calcium zinc phosphate and macro-sized parascholzite (nano/macro-ZnPhos), in comparison to the NF-free control. The study was carried out under authentic field conditions during the 2022 vegetation season at the Dolná Malanta site within the Central European Region. The empirical evidence presented herein indicates that the utilization of biocompatible and bioactive nano-Hap, initially engineered for biomedical applications, and nano/macro-ZnPhos, now foliarly applied at reduced concentrations, elicited a statistically significant elevation in quantitative parameters and seasonal physiological responses. The parameters analyzed included head diameter, dry head weight, seed yield per hectare, nutritional seed oiliness, etc. as well as the physiological normalized difference vegetation index (NDVI), stomatal conductance index (Ig), and crop water stress index (CWSI). In terms of agro-ecological terrestrial bio/diversity, it was evident that the nano/macro-ZnPhos was the most hospitable variant for the terrestric insect community, but surprisingly, the agronomically more popular nano-Hap showed only statistically insignificant changes in the diversity of the detected communities. However, the relevance of outcomes highlighted using nano-fertilizers, supporting the concept of precision and sustainable agriculture under field conditions. [ABSTRACT FROM AUTHOR]

Published

2023

2. Aspergillus niger Decreases Bioavailability of Arsenic(V) via Biotransformation of Manganese Oxide into Biogenic Oxalate Minerals.

Author

Farkas, Bence, Kolenčík, Marek, Hain, Miroslav, Dobročka, Edmund, Kratošová, Gabriela, Bujdoš, Marek, Huan Feng, Yang Deng, Qian Yu, Illa, Ramakanth, Sunil, B. Ratna, Hyunjung Kim, Matúš, Peter, and Urík, Martin

Subjects

ASPERGILLUS niger, BIOAVAILABILITY, ARSENIC, MANGANESE oxides, OXALATES

Abstract

The aim of this work was to evaluate the transformation of manganese oxide (hausmannite) by microscopic filamentous fungus Aspergillus niger and the effects of the transformation on mobility and bioavailability of arsenic. Our results showed that the A. niger strain CBS 140837 greatly affected the stability of hausmannite and induced its transformation into biogenic crystals of manganese oxalates--falottaite and lindbergite. The transformation was enabled by fungal acidolysis of hausmannite and subsequent release of manganese ions into the culture medium. While almost 45% of manganese was bioextracted, the arsenic content in manganese precipitates increased throughout the 25-day static cultivation of fungus. This significantly decreased the bioavailability of arsenic for the fungus. These results highlight the unique A. niger strain's ability to act as an active geochemical factor via its ability to acidify its environment and to induce formation of biogenic minerals. This affects not only the manganese speciation, but also bioaccumulation of potentially toxic metals and metalloids associated with manganese oxides, including arsenic. [ABSTRACT FROM AUTHOR]

Published

2020

3. Field Application of ZnO and TiO 2 Nanoparticles on Agricultural Plants.

Author

Šebesta, Martin, Kolenčík, Marek, Sunil, B. Ratna, Illa, Ramakanth, Mosnáček, Jaroslav, Ingle, Avinash P., and Urík, Martin

Subjects

TITANIUM dioxide, ZINC oxide, PLANTS, WEATHER & climate change, PLANT growth

Abstract

Engineered nanoparticles (ENPs) have potential application in precision farming and sustainable agriculture. Studies have shown that ENPs enhance the efficiency of the delivery of agrochemicals and thus, have the potential to positively affect the environment, thereby improving the growth and health of the crops. However, the majority of the research on the effects of ENPs on plants and in agricultural applications have been limited to controlled laboratory conditions. These conditions do not fully consider various aspects inherent to the growth of agricultural plants in fields under changing weather and climate. Some of the most investigated ENPs in the agricultural research area are ZnO nanoparticles (ZnO NPs) and TiO2 nanoparticles (TiO2 NPs). ZnO NPs have the potential to increase crop production and stress resistance, mainly by the slow release of Zn ions to crops. Unlike ZnO NPs, TiO2 NPs have less well-understood means of action, and are generally considered as plant growth promoter. This mini review presents information compiled for ZnO and TiO2 NPs, their influence on agricultural plants with emphasis on particularly effect on plant growth, nutrient distribution and pollution remediation under field conditions. It is concluded that in order to gain a broader perspective, more field studies are needed, particularly multigeneration studies, to fully understand the effects of the ENPs on agricultural plants' growth and improvement of their health. [ABSTRACT FROM AUTHOR]

Published

2021