International Journal of Agriculture and Food Science
Vitreous materials find wide spread application in modern civilization. This review examines the role of vitreous fertilizers towards the agricultural aspects and its related complexity.
Physico-chemical properties, structural characterization, and dissolution behaviors of four phosphate glasses modified by incorporating zinc, boron, and copper, acting as eco-friendly fertilizers with...
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Vitreous materials find wide spread application in modern civilization. This review examines the role of vitreous fertilizers towards the agricultural aspects and its related complexity.
Nano-fertilizers are one of the greatest innovations for the improvement of agriculture, promoting nutrient uptake efficiency and minimizing nutrient loss and environmental pollution index
In the twenty-first century, nanotechnology has emerged as a potentially game-changing innovation. Essential minerals are mostly unavailable
Introduction The large-scale production of mineral fertilizers was a major agricultural advancement that helped increase crop yields and economic
Nano-fertilizers are of submicroscopic sizes, have a large surface area to volume ratio, can have nutrient encapsulation, and greater mobility hence they may increase plant nutrient access and
Simultaneous determination of macronutrients, micronutrients and trace elements in mineral fertilizers by inductively coupled plasma optical emission spectrometry
The optimized method presented good accuracy and was effectively applied to quantitative simultaneous determination of the analytes in mineral fertilizers by inductively coupled plasma optical
Over the past two decades, optical MNFs, typically being operated in single mode, have been emerging as a miniaturized fiber-optic platform for both
Fiber Optics; an introduction. The use of fiber optics as light guidance allows great modularity and flexibility in the setup of an optical measurement system.
In summary, this review sheds light on how nanotechnology, through the development and application of nanofertilizers, holds the promise of revolutionizing agriculture by addressing the pressing challenges
1 Introduction Fiber optics is a groundbreaking technology that has revolutionized the way informa-tion is transmitted and accessed in the modern world . The basic working principle of fiber optics is
The introduction of granular organic fertilizers contributed to an increase in the total number of fungi in the soil. This increase was mainly due to saprotrophs and
There is a need for a more innovative fertilizer approach that can increase the productivity of agricultural systems and be more environmentally friendly than synthetic fertilizers. In this article, we reviewed
The world is facing immense challenges in terms of food security, due to the combined impacts of the ever-increasing population and the adversity of climate
In this report, we focus on the first three common types of optical fibers. As a common application of the fibers, these can be used in fiber lasers to create and amplify a narrow intense
In this study, a multicomponent oxide glass is formulated for the nutritional Palisade grass (cv Piata), used as a model for nutrients released in greenhouse experiments.
As a result, local geometrical changes in the optical fiber such as changes in its cross-section, which may introduce optical anisotropy, can be established. Furthermore, phase changes, which are the
This section of Glass: Then and Now brings the use of glass for optical fiber and photonics into the light. Optical fibers route light virtually instantaneously
These innovative fertilizers offer a range of benefits, such as improved nutrient utilization, controlled nutrient release, targeted nutrient delivery, enhanced plant
Highlights use in slow-release fertilizers, hydrogels, and crop protection; considers environmental impact. This review investigates the potential of nanocellulose in agriculture,
Nanofertilizers (NFs) have emerged as a promising solution to address the challenges of conventional fertilizers in agriculture. It can be broadly classified into three main types: nanocomposites,
These advanced fertilizers enhance nutrient use efficiency, promote crop growth, and minimize environmental harm by enabling precise nutrient
Clearly, researchers have something in mind beyond ordinary optical fibers, and one of the ideas emerging in recent years is the concept of
To mitigate these environ-mental risks, fertilizers with slow-release behaviours have been developed. The aim of this study was to assess the agronomic potential of two different glass-based materials
Chemical (synthetic) fertilizers used indiscriminately for improved production pose a major threat to long-term soil fertility, the soil environment, and
The increased dependency of modern agriculture on excessive synthetic input of chemical fertilizers has caused several environmental problems related to greenhouse effect, soil
Inductively coupled plasma optical emission spectrometry (ICP-OES) analytical method was optimized to determine the micronutrient concentrations from the fertilizers used as inputs in
This paper reviews the application of fiber optic microfluidic sensors in emerging environmental contaminant detection, focusing on the characteristics of different emerging