Yazar "Shivani Ranjan" seçeneğine göre listele

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    Öğe
    Nanotechnology: A Sustainable Approach for Combating Climate Change
    (Apple Academic Press, 2025-02-21) Sumit Sow; Shivani Ranjan; Sanjay Kumar; Mainak Ghosh; Navnit Kumar; Smruti Ranjan Padhan; Arzu Çiğ; Fatih Çiğ; Ayman El Sabagh
    In the current era of climate change, the global population is rapidly increasing, presenting a significant challenge for the agricultural industry in providing nourishing food to meet the growing demand. However, numerous biological and environmental factors impose limitations on agricultural productivity. Thus, modern agricultural practices have enabled higher crop yields to sustain the expanding human population. Unfortunately, the use of harmful chemicals like pesticides and insecticides has resulted in severe environmental degradation and adverse health effects on humans. Fortunately, emerging technologies such as nanotechnology offer promising solutions to address these aforementioned challenges in the agricultural sector. Nanotechnology can serve as a protective measure and be utilized as nanocarriers for fungicides, insecticides, and herbicides. Its recent integra-tion into agricultural platforms has primarily focused on delivering plant hormones, managing water resources, facilitating seed germination, transfer-ring targeted genes, developing nanosensors, creating nanofertilizers, and implementing nano-barcoding techniques. Despite the numerous benefits of nanoparticle utilization, its application in agriculture remains limited. Nonetheless, nanotechnology has immense potential to revolutionize the agricultural industry and overcome its limitations.
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    Öğe
    Organic weed management can improve rice-maize rotation performances under conservation agriculture
    (Pakistan Journal of Botany, 2024-11-14) Subhra Sahoo; Dhirendra Kumar Roy; Shivani Ranjan; Sumit Sow; Smruti Ranjan Padhan; Alaa Baazeem; Omer Konuşkan; Zeki Erden; Çağdaş Can Toprak; Ayman El Sabagh
    A two-year field experiment was carried out to ascertain the influence of organic weed management (OWM) on the crop performance and productivity of rice–maize rotation under conservation agriculture. The experiment comprised of four tillage practices as main plots and five OWM treatments as subplots arranged in split-plot design with three replication. The tillage management treatments included ZTR fb ZTM: zero-tillage (ZT) direct seeded rice (DSR) followed by (fb) ZT-maize, PBDSR+R fb PBDSM+R: DSR fb maize both in permanent bed (PB) with residue incorporation, PBDSR-R fb PBDSM-R: DSR fb maize both in PB without residue and CTR fb CTM: conventionally tilled rice fb maize. In OWM, five treatments were as follows: UC: unweeded weed control, VM: vermicompost mulching, PVM: phosphorous (P) enriched VM, LM: live-mulch of Sesbania spp. in rice and Pisum sativum in maize, WF: weed-free check. The PBDSR+R fb PBDSM+R obtained a significantly higher plant height (18.9–19.7%), leaf area index (LAI) (24.0–24.6%), dry matter accumulation (DMA) (10.8– 11.3%) and crop growth rate (CGR) over CTR fb CTM in both rice and maize in all the growth stages. Moreover, PBDSR+R fb PBDSM+R recorded significantly higher grain yield (63.6 and 66.0 q ha-1) in rice and in maize (93.02 and 94.31 q ha-1) over other treatments in both years. Among the various OWM, LM reported significantly superior growth attributes viz. plant height, number of tillers m-2, leaf area index and dry matter accumulation in rice and maize and grain yield by 12.3–16% in rice and 7.4–8.5% in maize over VM across the years of study. The PBDSR+R fb PBDSM+R recorded and LM recorded significantly the highest net return and benefit-cost ratio throughout the study. The study highlights that residue incorporation under rice–maize rotation in PB led CA system along with LM enhanced productivity and profitability.