Influence of biopreparations on formation of elements of productivity of spring barley

Relevance. The strategy for the development of agriculture in Russia and its biologization determine the relevance of our research. Empirical studies are aimed at studying the effect of biological preparations on the formation of elements of the structure of the yield of spring barley. The data presented in the work continues the research carried out in 2016–2020 in the Rostov region.Methods. Studied biopreparations are: Biodux; Trainer; Artafite; Obereg; Fulvogumate. Control — water treatment. Spraying was carried out according to the recommendations for the use of preparations: 1st — in the tillering phase, 2nd — in the heading phase. The total area under the experiments is 600 m2, the area of each variant is 25 m2, the replication is 4 times. The link in the crop rotation is “sunflower — spring barley”. The soils of the experimental plot are ordinary chernozem. Used variety is Leon.Results. In 2021, full sprouting of barley was observed on the 8th day after sowing. This is due to sufficient warming up of the sowing layer of soil (+8 °C) and moisture 28 mm (in a layer of 0–10 cm). Studies have shown that field germination of barley was 88%. The use of biological products influenced the survival rate of plants to harvest which wasmore than 80%. In the variants with the use of Biodux and Obereg, this figure was 86 and 87%, respectively. Biopreparations stimulated the growth of productive stems, productive bushiness increased in comparison with the control (1,21) to 1,28–1,33. The mass of a thousand grains in the variants exceeded the control, especially with the use of Obereg — 45,6 g, which is 2,9 g more than the control. The number of grains in an ear ranged from 17,7 to 18 pieces, which is on average 1 piece more than in the control. The highest productivity was formed by barley plants under the influence of the biopreparations Obereg and Biodux. Thus, the increase in productivity under the influence of biological products due to all elements of the productivity of barley plants has been reliably proven.

Integrated Water Resource Management, Sustainability, and Pollution Abatement in Malawi

With the introduction of IWRM, local government institutions are expected to control water-related pollution, which is often associated with new water resource management, supply, and sanitation responsibilities devolved to them as part of decentralisation. The aim of this study was to look into eco-efficiency, environmental performance, physical scarcity and economic scarcity trends, sustainable variables, and externalities associated with the introduction of IWRM in Malawi. Focus group discussions and interviews were conducted with policymakers and households in Ntcheu, Mangochi, and Balaka. Findings confirmed that the challenges local levels of government face in managing water infrastructure and formulation of pollution control measures are a result of the fact that adoption of IWRM happened without any readiness to do so, especially in terms of water-related pollution control.

Alternative products to control late season diseases in soybeans

ABSTRACT: In the last crop seasons, the complex of late season diseases (CLSD) of soybean (Glycine max L. (Merrill)), has been causing considerable reductions in the crop yield. Currently, there are no cultivars resistant to all pathogens that causes CLSD. The present study evaluated the effect of applying the acibenzolar-S-methyl resistance inducer, alternative products and fungicide on the severity of CLSD in the soybean cultivar BMX Potência RR during the 2013/2014 and 2014/2015 crops, in the field. The treatments for the experiments were: 1 - control (water); 2 - acibenzolar-S-methyl; 3 - calcium; 4 - micronutrients: copper, manganese and zinc; 5 - micronutrients: manganese, zinc and molybdenum; 6 - nitrogen-potassium fertilizer; 7 - Ascophyllum nodosum and 8 - azoxystrobin + cyproconazole with the addition of the adjuvant. Four applications of alternative products and two of fungicide were carried out in both harvests. A diagrammatic scale assessed the severity of CLSD at the phenological stage R7.1. The acibenzolar-S-methyl resistance inducer, alternative products (macro and micronutrients) and A. nodosum had no effect on the severity of CLSD in the two harvests. The fungicide (azoxystrobin + cyproconazole) reduced the severity of CLSD and prevented damage to productivity in both experiments.

Lowland amphibians - recalculation of data on effects of diluted thyroxine

Our previous paper described methodological problems and a generally acceptable pooling method for metamorphosis experiments and application of that method to the results of multicentre experiments performed over the course of two decades (1990 - 2010) on highland amphibians (Rana temporaria) treated with a homeopathically prepared high dilution of thyroxine (“30x”). Differences between treatment groups thus calculated were in line with those obtained with other pooling methods: Thyroxine 30x does slow down metamorphosis in highland amphibians. This follow up paper provides a broader background on metamorphosis physiology and describes application of the pooling method to experiments with Rana temporaria from lowland biotopes both with a moderate dilution of thyroxine (“8x”) and with 30x. Analogously prepared water was used for control (water 8x or 30x). Development was, again as above, monitored by documenting the number of animals that had entered the 4-legged stage. Experiments were carried out between 1990 and 2000 by different researchers independently and in blind. As it is well known, metamorphosis can be speeded up by thyroxine 10-8 mol/l; interestingly, thyroxine 8x may produce a reverse, i.e. inhibiting effect (p < 0.01). In contrast to the inhibiting effect of thyroxine 30x on highland larvae (see above), 2-legged lowland larvae did not react to thyroxine 30x (p > 0.05). However, an inhibiting effect on lowland larvae was found when animals were treated from the spawn stage on (p < 0.01).

Relative Permeability Modifiers as a Chemical Means to Control Water Production in Oil and Gas Reservoirs

It is challenging to control water production in horizontal wells or in vertical wells having oil and water produced from the same zone using conventional methods such as through-tubing bridge plugs or other mechanical means. Relative permeability modifiers (RPMs), known to selectively reduce the relative permeability to water with minimum impact on the relative permeability to oil or gas, are considered a promising technology for solving this problem. The current generation of RPMs, unlike the old ones, can tolerate high hardness and so have higher success rates. An extensive experimental work was carried out to evaluate three RPMs for water control in gas and oil wells. Test conditions included gas flow in sandstone cores with temperatures of up to 300°F, and oil flow in carbonate cores with temperatures as high as 220°F. The effect of initial core permeability to brine, RPM concentration, flow rate, and water-wetting surfactants on the effectiveness of RPM to reduce water production was investigated using sandstone and carbonate cores. Coreflood experiments were undertaken at downhole conditions. The end-point relative permeabilities to various phases were measured. A back pressure of 500 psi, an overburden pressure of 3,500 to 5,000 psi and flow rates of 0.1 to 5 cm3/min were used. The concentration of RPM polymers was monitored in the core effluent using total organic carbon (TOC) analyzer to determine polymer retention in the core. The results revealed that temperature adversely affected the effectiveness of all RPMs evaluated. A better reduction in permeability to water was obtained at 220°F compared to that obtained at 300°F. The use of RPM at the right concentrations was found to significantly reduce permeability to water. A better water reduction was obtained at higher polymer injection rates, which was attributed to flow-induced polymer retention. Adsorption of RPM polymer tended to alter wettability of a carbonate rock to more water-wet. This paper discusses the effects of the above parameters on the performance of RPM in sandstone and carbonate reservoirs, and it gives some recommendations for improving the success rate of these chemical applications in the field.

A Variable Rate Drip Irrigation Prototype for Precision Irrigation

A new Variable Rate Drip Irrigation (VRDI) emitter that monitors individual water drops was designed, built, and tested. This new emitter controllers water application directly by monitoring the volume applied in contrast to uniform drip irrigation systems that control water application indirectly by pressure compensation and operational times. Prior approaches assumed irrigation volumes based on flow rates and time and typically did not verify the applied amount of water applied at each water outlet. The new VRDI emitter self-monitors the total volume of water applied and halts the flow once the desired total water application has been achieved. This study performed a test for a new VRDI emitter design with two inner diameters of 0.11 cm and 0.12 cm and two outer diameters 0.3 cm and 0.35 cm compared to a commercial drip emitter. Laboratory tests verify that the integrated volume measurements of the VRDI system are independent of pressure. Conversely, the flow rates of the commercial pressure-compensated drip lines were not independent of pressure. These results demonstrate that this form of VRDI is technically feasible and is shown to be energy efficient, requiring lower system operating pressures than pressure-compensated lines. The VRDI system can reduce water consumption and related water costs.

Impact of Hydro-Politics and Kashmir issue between India and Pakistan

This study primarily focuses on developing an exclusive model, generally explaining the importance of international rivers in the relationships of the nations and particularly interlinked conflict over Kashmir and the Indus River. Conflict is a fact among nations caused because of disputed lands or un-decided borders linked to valuable resources or due to political and ideological differences. Historical differences between Pakistan and India especially about water distributions can leads them towards war. So far, they had fought three wars due to Kashmir's un-resolved issue and an upcoming one could be forecasted to control water resources originating from occupied Kashmir. According to the neo-realistic point of view, this study examines the conflicting interests among India and Pakistan, which are related to Kashmir, and claims that it is not just religious but also geographical as it is connected to the control of river waters. There is very limited significant research present that primarily focuses on this facet of India and Pakistan’s relations. The current literature expresses their conflict as of ideological, cultural, and political nature. This model-based research addresses the relationship of water and other related sources to war and peace through a rational research method demonstrated by broadly observed data.

Using Sine Function-Based Nonlinear Feedback to Control Water Tank Level

This manuscript addresses the feasibility and significance of using a sine function to modify the system error of a normal linear feedback control to achieve more efficient capabilities in terms of energy-saving. The associated mathematic modeling and assessment were demonstrated by presenting a case analysis on the capabilities of controlling water level for a single tank. The principle of robust control and the theories and detailed algorithm of Lyapunov stability were applied to assess the result derived by novel nonlinear feedback in the form of sine function for optimizing the robustness of the PID (Proportional–Integral–Derivative) controller and economizing energy. Two control simulations are compared: nonlinear feedback control using a sine function and conventional fuzzy control. The results reveal that using the nonlinear feedback controller, a reduction of up to 32.9% of the average controlled quantity is achieved, and the performance index is improved by 24.0% with satisfactory robustness. The proposed nonlinear feedback control using a sine function provides simplicity, convenient implementation, and energy efficiency.

PELUANG DAN TANTANGAN PENGENDALIAN KEHILANGAN AIR BERBASIS INTERNET OF THINGS (IOT) : STUDI PUSTAKA

Permasalahan yang sering terjadi pada pipa distribusi air minum adalah kehilangan air. Kehilangan air mengurangi kualitas pelayanan dan pendapatan PDAM. Studi pustaka terhadap artikel ilmiah yang relevan menunjukkan adanya peluang penerapan pengendalian kehilangan air berbasis Internet of Things (IoT). Penelitian ini bertujuan untuk mengidentifikasi peluang dan tantangan penerapan IoT untuk pengendalian kehilangan air khususnya pada PDAM sebagai operator penyelenggara. IoT berpeluang mengendalikan kehilangan air melalui tiga cara yaitu manajemen tekanan, manajemen aset, dan mempercepat waktu tanggap saat terjadi kebocoran. Tantangan penerapan IoT pada PDAM di Indonesia berkaitan dengan kelembagaan dan pembiayaan PDAM, infrastruktur jaringan pendukung, kemanan data, serta ketidakakuratan dan kesalahan data. PDAM di Indonesia berpeluang menerapkan IoT namun hendaknya harus memperhatikan tantangan-tantangan yang telah dijabarkan pada penelitian ini. Kata kunci: Internet of Things (IoT), kehilangan air, PDAM. The problem that often occurs in water distribution pipes is water losses. The water losses reduce the service quality and the revenue of PDAM. The literature reviews of relevant scientific articles show that there are opportunities for implementing water losses control based on the Internet of Things (IoT). This study aims to identify the opportunities and the challenges of implementing IoT to control water losses at PDAM as an operator. The IoT has the opportunity to control water losses in three ways: pressure management; asset management; and accelerates the response time when a leak occurs. The challenges of implementing IoT at PDAM are related to the institutionalization and financing of PDAM; supporting network infrastructure; data security; and data inaccuracies and errors. PDAM in Indonesia has the opportunity to implement the IoT system, but they have to observe the possible challenges in this research. Keywords: Internet of Things (IoT), PDAM, water losses

A smart Agriculture Irrigation System using sensor array based IOT

The role of Agriculture is important to build a nation, since more than 58% of the population in our country is dependent on agriculture that means half of the population is investing in agriculture. However, many farmers are unfamiliar with intelligent irrigation systems designed to improve the water used for their crops. The proposed system is to precisely monitor the distribution of the water to crops. This IOT based system has a distributed wireless network of soil moisture sensors to monitor soil moisture. Other sensors such as temperature, humidity, rain, IR, LDR, foot. The gateway device also processes the detector’s information and transmits the data to the farmer. An algorithm was developed using threshold values for soil moisture and nutrients, and these values were programmed into a node com-based gateway to control water for irrigation. Complete sensor data is sent to the free cloud using NODEMCU and displayed on websites and apps. This proposed work presents extensive research on irrigation systems in smart agriculture.