Moreover, such a dose-dependent administration of fertilizers can be done on the level of individual plants. Timely provided nutrients will mitigate the decrease in the crop yield. One can expect that timely sensing of plant deficiency in macro and micro elements can be used for site-specific spread of fertilizers in the field. Crop losses from abiotic stresses, such as drought and nutrient deficiency, are far more significant and can reach up to 70% worldwide. Such information can be used for a precise and site-specific administration of the chemical treatment that could prevent the spread of such biotic stresses and save up to 30% of the crop yield. Timely access to the information about plant health allows for detection and identification of pests and plant diseases in the field. This substantially decelerates the speed and confidence level of plant breeding. Such analyses require labor and time-consuming wet-laboratory techniques, such as Dumas combustion method and Megazyme Total Starch Content assay (subsequently megazyme assay). Currently, plant crosses are performed by visual analysis of plants, as well as by laboratory-based analysis of their nutrients (micro and macro elements) and nutritional values (levels of protein, starch, fiber, etc.). Sensing methods are also essential for plant breeding. Efficient digital farming requires sensing methods that can deliver information about the plant health from a field to the farmer. Digital Farming aims to develop innovative technological approaches that can be used to maximize the crop yield with minimal environmental impact. This innovative agricultural philosophy is known as digital farming or precision agriculture. The alternative strategy is focused on the enhancement of farming efficiency. One can envision that the first strategy is destructive and unlikely can be inefficient in the long term. This problem can be solved by continuous expansion of farm land or by development of innovative agricultural approaches. Malnutrition due to a lack of nutritious food is an issue that over a billion people around the world face daily. This combinatorial approach can be used to reduce associated time and cost, as well as enhance the accuracy of diagnostics of biotic and abiotic stresses. We also discuss potential advances in synergetic use of RS and already established imaging and molecular techniques. We show that high selectivity and specificity of Raman makes this technique ideal for optical surveillance of fields, which can be used to improve agriculture around the world. In this review, we critically discuss the most recent reports on the use of Raman spectroscopy for confirmatory identification of plant species and their varieties, as well as Raman-based analysis of the nutrition value of seeds. There is a growing body of evidence that Raman spectroscopy, a non-invasive, non-destructive, and laser-based analytical approach, can be used to: (i) detect plant diseases, (ii) abiotic stresses, and (iii) enable label-free phenotyping and digital selection of plants in breeding programs. This transformative agricultural concept, also known as digital farming, aims to maximize the crop yield without an increase in the field footprint while simultaneously minimizing environmental impact of farming. These food demands can be met by implementation of innovative technologies in agriculture. The LED lamp shines a mild indirect light for breastfeeding in dark rooms and as a sleep lamp.Our civilization has to enhance food production to feed world’s expected population of 9.7 billion by 2050. This advanced technology promotes more productive pumping sessions that can save time with comfort and ease. The SG is the first pump of its kind that allows moms to adjust each side independently! Like all Spectra pumps, the SG is a true closed-system, creating a hygienic barrier between outside contaminants and mother’s milk. The NEW Synergy Gold electric breast pump offers the most advanced and up-to-date technology in the industry.
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