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Climate-smart agriculture (CSA) (or climate resilient agriculture) is an integrated approach to managing landscapes to help adapt agricultural methods, livestock and crops to the effects of climate change and, where possible, counteract it by reducing greenhouse gas emissions from agriculture, at the same time taking into account the growing world population to ensure food security. Thus, the emphasis is not simply on carbon farming or sustainable agriculture, but also on increasing agricultural productivity. "CSA ... is in line with FAO’s vision for Sustainable Food and Agriculture and supports FAO’s goal to make agriculture, forestry and fisheries more productive and more sustainable". CSA has three pillars: increasing agricultural productivity and incomes; adapting and building resilience to climate change; and reducing or removing greenhouse gas emissions from agriculture. CSA lists different actions to counter the future challenges for crops and plants. With respect to rising temperatures and heat stress, e.g. CSA recommends the production of heat tolerant crop varieties, mulching, water management, shade house, boundary trees and appropriate housing and spacing for cattle. There are attempts to mainstream CSA into core government policies, expenditures and planning frameworks. In order for CSA policies to be effective, they must be able to contribute to broader economic growth, the sustainable development goals and poverty reduction. They must also be integrated with disaster risk management strategies, actions, and social safety net programmes. The Food and Agriculture Organization has identified several tools for countries and individuals to assess, monitor and evaluate integral parts of CSA planning and implementation by the FAO. Some of these tools include: Modelling System for Agricultural Impacts of Climate Change (MOSAICC): This modelling system helps countries conduct inter-disciplinary climate change impact assessment on agriculture through simulations.

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A Battery-Free Wireless Smart Sensor platform with Bluetooth Low Energy Connectivity for Smart Agriculture

Catherine Dehollain, Roberto La Rosa

Smart agriculture systems, which integrate sensors and data analysis into agricultural production processes, are increasingly proving an effective solution for reducing food production waste, yield production increase, and product quality improvement. In this context, this paper deals with a wireless sensors platform for humidity, temperature, and light detection that has the peculiarity to be self-powered and battery-free. The main advantage of the proposed solution is the elimination of maintenance interventions due to battery replacement. Therefore, the availability of install-and-forget sensors allows an easy diffusion for a capillary detection of plant health and growth parameters throughout the cultivated area. The device platform implements off-the-shelf components on a printed circuit board (PCB) with the size of 2 x 2 cm2 and the thickness of 0.45 cm. The sensor platform can harvest energy and supply the sensors with light intensity as low as 300 lux and communicate with Bluetooth Low Energy communication. Experimental measurements carried out in the rural context of the rows of a vineyard show the system functionality with a reliable communication distance, between the sensor platform and a remote Base Station, within a radius of 160 m.

IEEE2022

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