Journal articles on the topic 'Land use Sugar growing'

Abstract. Independent of its chemical structure carbon (C) persists in soil for several decades, controlled by stabilization and recycling. To disentangle the importance of the two factors on the turnover dynamics of soil sugars, an important compound of soil organic matter (SOM), a 3-year incubation experiment was conducted on a silty loam soil under different types of land use (arable land, grassland and forest) by adding 13C-labelled glucose. The compound-specific isotope analysis of soil sugars was used to examine the dynamics of different sugars during incubation. Sugar dynamics were dominated by a pool of high mean residence times (MRT) indicating that recycling plays an important role for sugars. However, this was not substantially affected by soil C content. Six months after label addition the contribution of the label was much higher for microbial biomass than for CO2 production for all examined land use types, corroborating that substrate recycling was very effective within the microbial biomass. Two different patterns of tracer dynamics could be identified for different sugars: while fucose and mannose showed highest label contribution at the beginning of the incubation with a subsequent slow decline, galactose and rhamnose were characterized by slow label incorporation with subsequently constant levels, which indicates that recycling is dominating the dynamics of these sugars. This may correspond to (a) different microbial growing strategies (r and K-strategist) or (b) location within or outside the cell membrane (lipopolysaccharides vs. exopolysaccharides) and thus be subject of different re-use within the microbial food web. Our results show how the microbial community recycles substrate very effectively and that high losses of substrate only occur during initial stages after substrate addition. This study indicates that recycling is one of the major processes explaining the high MRT observed for many SOM fractions and thus is crucial for understanding the global soil C cycle.

In the conditions of a high drought of climate of the Nikolaev area and fluctuations of temperature on years the important direction of increase of productivity of arable land is cultivation of drought-resistant cultures and improvement of the technological receptions directed on creation of highly productive agrocenoses. Sorghum is a crop that can withstand high temperatures and prolonged droughts: to consume one kg of dry matter, it consumes almost 1.5 times less water than corn and 2 times less than cereals. Its value is also due to the versatility of use, the ability to give stable yields, the possibility of growing on unproductive soils. This article evaluates the energy efficiency of growing sugar and grain sorghum in the context of climate change. Keywords: energy equivalent, energy efficiency coefficient, energy costs, grain sorghum, sweet sorghum, biofuel, energy efficiency.

Sugar beets are the only source of sugar in Russia. The use of new highly productive varieties and hybrids of sugar beet with high sugar content can significantly increase sugar production. To ensure the country’s food security in sugar production and reduce import dependence on sugar beet seeds, the strategic task is to resume domestic selection of sugar beets and provide it with beet seeds for the country. One of the factors restraining the development of domestic selection and seed production is the physically and morally obsolete technical base of selection and seed-growing institutes, centers and farms. In the selection of sugar beets, non-transplanting, planting and transplanting (plug-in) methods for producing sugar beet seeds are used. Of great practical interest is the introduction of the plug-in method for producing seeds, in which thickened sugar beet crops are created, due to which the optimal specific yield of uterine root crops is ensured, the area of arable land is most effectively used and the cost of seed production is reduced. Moreover, in the struggle for light, moisture and nutrients, the most powerful biotypes survive. The analysis of machines for selection and seed production shows that commercially available machines in our country do not meet the requirements of the technology for producing sugar beet seeds using the plug-in method. It is necessary to create and implement specialized machines, such as bed-forming mills, seeders for creating a thickened sowing, machines for minting seed plants and removing pollinators. The lines used for sorting the plugs require additional manual selection of root crops and rejection of damaged, rotten or infected plugs. Machines for landing plugs require the use of monotonous manual labor. It is promising to conduct research in the direction of automating the processes of cleaning, sorting and planting of plugs, minting testes, and eliminating manual labor during these operations.

Abstract. Independent of its chemical structure carbon (C) persists in soil for several decades, controlled by stabilisation and recycling. To disentangle the importance of the two factors on the turnover dynamics of soil sugars, an important compound of soil organic matter (SOM), a three year incubation experiment was conducted on a silty loam soil under different types of land use (arable land, grassland and forest) by adding 13C-labeled glucose. The compound specific isotope analysis of soil sugars was used to examine the dynamics of different sugars during incubation. Sugar dynamics were dominated by a pool of high mean residence times (MRT) indicating that recycling plays an important role for sugars. However, this was not substantially affected by soil C content. Six months after label addition the contribution of the label was much higher for microbial biomass than for CO2 production for all examined soils, corroborating that substrate recycling was very effective within the microbial biomass. Two different patterns of tracer dynamics could be identified for different sugars: while fucose (fuc) and mannose (man) showed highest label contribution at the beginning of the incubation with a subsequent slow decline, galactose (gal) and rhamnose (rha) were characterised by slow label incorporation with subsequently constant levels, which indicates that recycling is dominating the dynamics of these sugars. This may correspond to (a) different microbial growing strategies (r and K-strategist) or (b) location within or outside the cell membrane (lipopolysaccharides vs. exopolysaccharides) and thus be subject of different re-use within the microbial food web. Our results show how the microbial community recycles substrate very effectively and that high losses of substrate only occur during initial stages after substrate addition.

Sugar had become, by the eighteenth century, a global commodity. Originating in East Asia, plantations in the Americas fed the growing taste for its use in Europe, with its consumption increasingly popularised. The 1791 Revolution in Saint Domingue (Haiti) and the 1807 British abolition of the slave trade prompted shifts in the epicentres of sugar, the most important of these being arguably to Cuba and Java. These two fertile islands saw the burgeoning development of sugar-plantation systems with major inputs of foreign capital and forced labour. In the process the two islands each, respectively, became central to the very much truncated Spanish and Dutch colonial empires left after the Napoleonic wars and the Latin American wars of liberation; and by the mid-nineteenth century in the case of Cuba, and by the late nineteenth century in the case of Java, they had been catapulted to global sugar pre-eminence. There has been an abundance of study on the two islands each in their own right, but none systematically examines their parallel trajectories. Yet the question arises as to how sugar came to dominate the agriculture, industry and trade of these two islands; and how these two islands in particular, in two different colonial systems and parts of the world, should rise to sugar pre-eminence in the way they did and when they did. Are there connections and similarities between the two that help explain this phenomenon? This article analyses the conditions that led Java and Cuba to become the prime cane-sugar exporters of the nineteenth and early twentieth centuries. Initiative for this came from the linkages between their dominant elites and the transnational, transimperial networks of trade and capital. This furthered the stimulation of technological and scientific innovation in both, enabled not only through the introduction of the latest advances in machinery and method, but also the immigration of technical skilled workers from Europe and North America. New sugar frontiers were opened that offered room for expansion at a time of rapidly growing demand for sugar in Europe; but for this to occur, radical changes needed to be made to the system of land ownership and use. At the same solutions were needed for how to mobilise and control sufficient labour without jeopardising the colonial order. This question eventually came to dominate the political system through which social control could be ensured – particularly, because Cuba and Java came to be ever more closely tied to global capital and trade; and both islands become dominated by sugar while at the same time coming to dominate global sugar production.

AbstractConcerns about the impacts of climate change have led to increased targets for biofuel in the global energy market. First-generation biofuel crops contain oil, sugar or starch and are usually also grown for food, whereas second-generation biofuel is derived from non-food sources, including lignocellulosic crops, fast-growing trees, crop residues and waste. Biofuel production drives land-use change, a major cause of biodiversity loss, but there is limited knowledge of how different biofuel crops affect local biodiversity. Therefore, a more detailed understanding could inform more environmentally-conscious decisions about where to grow which biofuel crops. We synthesised data from 116 sources where a potential biofuel crop was grown and estimated how two measures of local biodiversity, species richness and total abundance, responded to different crops. Local species richness and abundance were 37% and 49% lower at sites planted with first-generation biofuel crops than in sites with primary vegetation. Soybean, wheat, maize and oil palm had the worst effects; the worst affected regions were Asia and Central and South America; and plant species richness and vertebrate abundance were the worst affected biodiversity measures. Second-generation biofuels had smaller, but still significant, effects: species richness and abundance were 19% and 25%, respectively, lower in such sites than in primary vegetation. Our models suggest that land clearance to cultivate biofuel crops reduces local biodiversity. However, the yield of biofuel from different crops influences the biodiversity impacts per unit of energy generated, and the geographic and taxonomic variation in effects are also relevant for making sustainable land-use decisions.

Agrivoltaic combines crop planting and electricity generation on the same land, it is considered as an opportunity to resolve the competition for land use between food and energy production. In addition to growing crops, farmers can gain electricity with the installation of agrivoltaic systems on their farmland. They can use this clean energy for agricultural production or sell it for extra income. The Chinese government considers it an important strategy for “Targeted Poverty Alleviation”. However, current methods of agrivoltaic provide uneven and low irradiance for crops, which usually results in reduced yield and low quality. In this study, an improved agrivoltaic system with a grooved glass plate has been designed, manufactured, and investigated, called Even-lighting Agrivoltaic System (EAS). Two experiments were conducted to test the effectiveness of the improvement. We measured the crops’ light environment, the crop growth process, the crop yield and quality, the electricity generation, and calculated the Land Equivalent Ratio (LER) as well as the comprehensive economic benefits on the farmland per hectare. Under the EAS, crops grew fast and the yield was similar or better than that under the natural state. By adding supplementary LED lamps into the EAS, the soluble sugar content of lettuce increased by 72.14% and the nitrate content of lettuce decreased by 21.51%. The average LER of the EAS for common vegetables was 1.64 as demonstrated in this work. Comprehensive economic benefits outperform the installation and maintenance costs, thus, the EAS can increase farmers’ income by an average of 5.14 times. The EAS provides new ideas and directions for the future development of agrivoltaic.

In Europe, ethanol is blended with gasoline fuel in 5 or 10% volume (E5 or E10). In USA the blend is 15% in volume (E15) and there are also pumps that provide E85. In Brazil, the conventional gasoline is E27 and there are pumps that offer E100, due to the growing market of flex fuel vehicles. Bioethanol production is usually by means of biological conversion of several biomass feedstocks (first generation sugar cane in Brazil, corn in the USA, sugar beet in Europe, or second-generation bagasse of sugarcane or lignocellulosic materials from crop wastes). The environmental sustainability of the bioethanol is usually measured by the global warming potential metric (GWP in CO2eq), 100 years time horizon. Reviewed values could range from 0.31 to 5.55 gCO2eq/LETOH. A biomass-to-ethanol industrial scenario was used to evaluate the impact of methodological choices on CO2eq: conventional versus dynamic Life Cycle Assessment; different impact assessment methods (TRACI, IPCC, ILCD, IMPACT, EDIP, and CML); electricity mix of the geographical region/country for different factory locations; differences in CO2eq factor for CH4 and N2O due to updates in Intergovernmental Panel on Climate Change (IPCC) reports (5 reports so far), different factory operational lifetimes and future improved productivities. Results showed that the electricity mix (factory location) and land use are the factors that have the greatest effect (up to 800% deviation). The use of the CO2 equivalency factors stated in different IPCC reports has the least influence (less than 3%). The consideration of the biogenic emissions (uptake at agricultural stage and release at the fermentation stage) and different allocation methods is also influential, and each can make values vary by 250%.

Dioecious papayas were introduced shortly after Cook’s 1778 discovery of Hawai’i but were supplanted for commercial uses by the gynodioecious solo papaya brought from the Caribbean in 1911. Growth of a local papaya industry based on hermaphrodite plants was enabled by research allowing prediction of seedling sex segregation and by development of cultivars with high quality, symmetrical fruits free of stamen carpellody, and carpel abortion. The industry expanded into export markets after 1940 by providing an alternative use for land and expertise abandoned by declining sugar plantations, adopting a cultivar capable of tolerating long-distance shipping, developing postharvest technology to overcome fruit fly quarantine restrictions, capitalizing on a growing tourism industry for marketing and air freight logistics, and forming an organization to support industry growth. In recent years, the industry has withstood pest and disease challenges by adopting innovative technologies that have allowed high-quality solo papayas to continue to participate in an increasingly competitive export market.

Reduction of amount CO2 is possible by carbon sequestration to the soil. Fixation potential of EU–15 agricultural land is c. 16–19 mil t C . year−1. Amount and composition of post–harvest residues is essential for carbon soil sequestration. Long–term yield series of the most planted crops (winter wheat – Triticum aestivum, spring barley – Hordeum vulgare, corn and silage maize – Zea mays, winter rape – Brassica napus, potatoes – Solanum tuberosum, sugar beet – Beta vulgaris, alfalfa – Medicago sativa, red clover – Trifolium pratense, white mustard – Sinapis alba and fiddleneck – Phacelia tanacetifolia) in various agroecological conditions and growing technologies were used for carbon balance calculation. The carbon balances were calculated for main crop rotations of maize, sugar beet, cereal and potato production regions (24 crop rotations). The calculations were realized for following planting varieties: traditional, commercial, ecological and with higher rate of winter rape. All chosen crop rotations (except seven) have positive carbon balance in the tillage system. Amount of fixed carbon might be increases about 30% by the use of no–tillage system. Least amount of carbon is fixed by potatoes, high amount by cereals, alfalfa and sugar beet. For a short time (months) the crops sequestration of carbon is relatively high (to 4.4 t . ha−1 . year−1) or to 5.7 t . ha−1 . year−1 for no–tillage system. From the long time viewpoint (tens of years) the data of humified carbon in arable soil (max 400 kg C . ha−1 . year−1) are important. Maximal carbon deficit of chosen crop rotation is 725 kg C . year−1.

The research was carried out with the aim of comparative assessment of varieties and selected forms of sour cherries by the chemical composition of fruits to identify the best genotypes with their subsequent use in breeding, as well as industrial, farm and collective gardening. The experiments were carried out in 2016–2019 in triplicate. The garden was laid out in 2004-2005 and is located in the southwestern part of the Republic of Tatarstan. The material for the study was 20 varieties and selected hybrids of sour cherries of different ripening periods of the breeding of Tatar Research Institute of Agriculture. On average, over the years of research in fruits of different varieties, the content of soluble solids varied within 16.69 ... 26.49%, sugars - 3.72 ... 6.35%, organic acids - 0.96 ... 2.64%, vitamin C - 11.70 ... 15.90 mg per 100 g. The variability of the content of soluble solids and vitamin C was average (V = 15.1 ... 19.3 and 10.3 ... 14.3%, respectively). The amount of sugars, organic acids and the sugar acid index changed more significantly - V = 20.9… 25.2, 22.0… 25.8 and 29.0… 37.7%, respectively. The genotype had a greater influence on the variability of the content of soluble dry substances, sugars and organic acids in sour cherry fruits (30.2 ... 65.9%) than the conditions of the year (3.0 ... 24.7%) and the interaction of these factors (11.4 ... 29.2%). A positive relationship was noted between the content of soluble solids in fruits and the sugar-acid index (r = 0.85), the content of sugars (r = 0.76), acids (r = 0.50), the sum of positive summer temperatures (r = 0.69 ); an insignificant negative relationship with vitamin C (r = -0.45) and summer precipitation (r = -0.60). Sources of a high content of soluble solids in fruits (21.84 ... 26.49%) in the breeding can be Shelangovskaya, Pamyat Sakharova, Sevastyanovskaya varieties, selected forms - Chereshnevaya No. 1, 1-11-31, 80-8, 1-10 -30 and 37-8; high content of vitamin C (15.16 ... 15.90%) - varieties Shelangovskaya, Low-growing and selective form Chereshnevaya No. 1. In industrial, farm, collective gardening it is recommended to use varieties Shelangovskaya, Pamyat Sakharova, Sevastyanovskaya.

Abstract. Land surface models are essential parts of climate and weather models. The widely used Noah-MP land surface model requires information on the leaf area index (LAI) and green vegetation fraction (GVF) as key inputs of its evapotranspiration scheme. The model aggregates all agricultural areas into a land use class termed “cropland and pasture”. In a previous study we showed that, on a regional scale, the GVF has a bimodal distribution formed by two crop groups differing in phenology and growth dynamics: early-covering crops (ECC; e.g., winter wheat, winter rapeseed, winter barley) and late-covering crops (LCC; e.g., corn, silage maize, sugar beet). That result can be generalized for central Europe. The present study quantifies the effect of splitting the land use class cropland and pasture of Noah-MP into ECC and LCC on surface energy fluxes and temperature. We further studied the influence of increasing the LCC share, which in the study area (the Kraichgau region, southwest Germany) is mainly the result of heavily subsidized biomass production, on energy partitioning at the land surface. We used the GVF dynamics derived from high-resolution (5 m × 5 m) RapidEye satellite data and measured LAI data for the simulations. Our results confirm that the GVF and LAI strongly influence the partitioning of surface energy fluxes, resulting in pronounced differences between simulations of ECC and LCC. Splitting up the generic crop into ECC and LCC had the strongest effect on land surface exchange processes in July–August. During this period, ECC are at the senescence growth stage or already harvested, while LCC have a well-developed ground-covering canopy. The generic crop resulted in humid bias, i.e., an increase in evapotranspiration by +0.5 mm d−1 (latent heat flux is 1.3 MJ m−2 d−1), decrease in sensible heat flux (H) by 1.2 MJ m−2 d−1 and decrease in surface temperature by −1 ∘C. The bias increased as the shares of ECC and LCC became similar. The observed differences will impact the simulations of processes in the planetary boundary layer. Increasing the LCC share from 28 % to 38 % in the Kraichgau region led to a decrease in latent heat flux (LE) and a heating up of the land surface in the early growing season. Over the second part of the season, LE increased and the land surface cooled down by up to 1 ∘C.

Plant oils represent one of the most energyrich sources of renewable fuels available in Nature. Most of these oils occur in the form of triacylglycerols (TAGs) that can be transformed into biodiesel by conversion of their acyl chains into fatty acid methyl esters. In 2009, 14 billion litres of biodiesel were produced worldwide from plant oils (largely in the EU). This compares with 70 billion litres of ethanol (largely from Brazil and the USA). Both of these fuels now depend on land and crops (e.g. oil seeds, palm trees, maize and sugar cane) that are also used for foods. To meet growing demand and avoid competition with food, major expansion of biofuel production and development of new sources of biofuel are required. In this article, we outline how plants synthesize oils and describe some ways in which supplies of oils from plants could be increased to provide a larger contribution to renewable energy supplies.

Crop evapotranspiration (ETc) estimates, on a regional scale, hold enormous potential in managing surface and groundwater resources. This is particularly important for the headwater state of Wyoming, which provides water to found major river basins of the US. In this study, METRIC (Mapping evapotranspiration at high resolution with internalized calibration), a satellite-based image processing model, was used to map and quantify daily, monthly, and seasonal ETc and other energy balance fluxes, i.e., net radiation (Rn), sensible heat (H), and soil heat flux (G) dynamics for different land-use classes. Monthly and seasonal ETc estimated were further used to approximate regional water consumption patterns for different land-use types for nine irrigation districts in semi-arid to arid intermountain region of Big Horn Basin (BHB), Wyoming. The validation of METRIC retrievals against Bowen ratio energy balance system (BREBS) fluxes measured over three vegetative surfaces, viz. sugar beet in 2017, dry bean in 2018, and barley in 2019, indicated high accuracy. The pooled correlation observed between estimated (pooled) and measured instantaneous fluxes had R2 values of 0.91 (RMSE = 0.08 mm h−1, NSE = 0.91), 0.81 (RMSE = 49.6 Wm−2, NSE = 0.67), 0.53 (RMSE = 27.1 Wm−2, NSE = 0.53), and 0.86 (RMSE = 59.2 Wm−2, NSE = 0.84) for ETc, Rn, G, and H, respectively. The biggest discrepancy between measured and estimated monthly ETc values was observed during times when BREBS flux tower footprint was devoid of any crops or the crops at footprint were not actively transpiring. Validation results improved when comparisons were made on monthly scales with METRIC underestimating growing season ETc in the range between 3.2% to 6.0%. Seasonal ETc by land-use type showed significant variation over the study area where crop ETc was 52% higher than natural vegetation ETc. Furthermore, it was found that, in the arid to semi-arid intermountain region of Wyoming, the contribution of irrigation to total seasonal ETc varied in the range of 73–81% in nine irrigation districts that fall within the study area. The high relative contribution of irrigation highlights the importance of identifying and quantifying ETc for improved management in irrigation system design and water allocation.

Sugarcane (complex hybrids of Saccharum spp., C4 plant) croplands provide cane stalk feedstock for sugar and biofuel (ethanol) production. It is critical for us to analyze the phenology and gross primary production (GPP) of sugarcane croplands, which would help us to better understand and monitor the sugarcane growing condition and the carbon cycle. In this study, we combined the data from two sugarcane EC flux tower sites in Brazil and the USA, images from the Moderate Resolution Imaging Spectroradiometer (MODIS) sensor, and data-driven models to study the phenology and GPP of sugarcane croplands. The seasonal dynamics of climate, vegetation indices from MODIS images, and GPP from two sugarcane flux tower sites (GPPEC) reveal the temporal consistency in sugarcane phenology (crop calendar: green-up dates and harvesting dates) as estimated by the vegetation indices and GPPEC data. The Land Surface Water Index (LSWI) is shown to be useful to delineate the phenology of sugarcane croplands. The relationship between the sugarcane GPPEC and the Enhanced Vegetation Index (EVI) is stronger than the relationship between the GPPEC and the Normalized Difference Vegetation Index (NDVI). We ran the Vegetation Photosynthesis Model (VPM), which uses the light use efficiency (LUE) concept and is driven by climate data and MODIS images, to estimate the daily GPP at the two sugarcane sites (GPPVPM). The seasonal dynamics of the GPPVPM and GPPEC at the two sites agreed reasonably well with each other, which indicates that VPM is a powerful tool for estimating the GPP of sugarcane croplands in Brazil and the USA. This study clearly highlights the potential of combining eddy covariance technology, satellite-based remote sensing technology, and data-driven models for better understanding and monitoring the phenology and GPP of sugarcane croplands under different climate and management practices.

Atriplex halimus L. is known in the Mediterranean basin and along the coastal areas of Sardinia for its adaptability to salinity, although less information is available on the resistance of this species to water stress in absence of salinity. The effect of water stress on growth and water utilisation was investigated in two Atriplex species: A. halimus originating of south Sardinian island and the exotic species Atriplex nummularia Lindl., originating in Australia and widely used in land restoration of arid areas. Water stress was applied to young plants growing in 20 L pots with a sufficient water reserve to store a potentially sufficient water reserve to maintain substrate near to field capacity (30%) between irrigations. Watering was at 70% (control) or 40% (stress) of field capacity. In order to simulate the grazing by livestock, four plant biomass cuttings were conducted at times T0, T1, T2 and T3, corresponding to one cutting at the end of well watered phase (T0) before water stress induction, two cuttings after cycles of 5 weeks each during full summer (T1) and late summer (T2) and one cutting during autumn (T3). All plants remained alive until the end of treatment although growth was strongly reduced. Leaf dry weight (DW) and water use efficiency (WUE) were determined for all cuttings; relative water content (RWC), turgid weight : dry weight ratio (TW : DW), water potential (Ψw), osmotic potential (Ψs), CO2 assimilation, osmotic adjustment (OA), abscisic acid (ABA) and sugar accumulation were determined for the late summer cutting at T2. Water stress induced a decrease in DW, RWC, Ψw, Ψs, TW : DW and CO2 assimilation for both species, but an increase in WUE expressed in terms of dry matter production and a high accumulation of ABA and total sugars mainly for A. halimus. This suggests a more developed adaptive mechanism in this selection. Indeed, the clone was selected from the southern part of the island, where natural populations of saltbush are more exposed to abiotic stresses, mainly the water stress generated not by salinity. A. nummularia showed a greater OA and a positive net solute accumulation as than A. halimus, suggesting that water stress resistance in A. halimus is linked to a higher WUE rather than a greater osmotic adjustment.

Surface soil pH can influence biological activity, nutrition and various chemical processes in the soil. Low pH or acidity is causing major concern in southern Australia, prompting requests for details on the extent, severity and distribution of acidic soils in Queensland. By creating a soil pH database, using an appropriate base map, rainfall isohyets and GIS technology, a coloured pH map of surface soils was produced at a 1:5000000 scale for the entire State. As most samples were from virgin or little disturbed sites, the map generally reflects naturally occurring soil pH. Developed horticultural, agricultural and fertilized pastoral areas are likely to have lower pH than that mapped. About two thirds (63.1%) of Queensland's soils have acidic surfaces, 9.5% neutral and the remaining 26.9% are alkaline. The major proportion (74%) of the > 1200 mm rainfall zone is strongly acid, and the remainder is medium acid or acid. Much of the sugar growing areas occur in this zone. Surface soil pH generally decreases as rainfall increases and to a lesser extent from subtropical to tropical climate. In addition to climate, identification of the soil type assists with predicting pH, as the organic, coarse and medium textured soils and massive earths are more likely to be acid and have low buffering capacity. Depending on the land use, such soils may require regular liming or minimizing of net acidifying practices for long term sustainability.

One of the main tasks of botanical gardens is to create and maintain biological collections. There are 5 types of Lycopus in the biological collection of «All-Russian research Institute of medicinal and aromatic plants». One of them is the Lycopus americanus Muhlenberg ex W. P. C. Bart., was the object of this work, as the most difficult in cultivation. In nursery 1-4 years of vegetation researches of growth and development of a Lycopus americanus were carried out. Seeds of Lycopus americanus were received by the exchange Fund from Canada. Sowing was carried out in May 2016 inthe conditions of protected soil in pallets 7×7 cm. Seedlings were grown for two months at a temperature of +18+20 °С and illumination of 1000-1200 lux. In the first decade of July, the nursery was laid with 60-day seedlings according to the scheme 20×60 cm. The area of the plot is 0.8 m2, the repetition is fourfold. Accounting of indicators and processing of results were carried out according to standard methods. Experience in vegetative propagation of Lycopus americanus (2018-2019) got them out from the mother plant and according to the scheme experience, after dividing and planting these divided roots once watered with a solution of homeopathic preparation "Arnica C200" in a concentration of one granule/5 l of water, a flow rate of 5 l/ m2(experiment 1). Of experiment 2, plants after transplantation were once watered with a solution of lactose (milk sugar), the granules of which are filler for homeopathic preparations. The concentration of the solution in option 2 is 1 granule /5 lof water. Control plants were watered with water in the same volume. In the course of the studies it was revealed that the most significant increase in height have plants of the 2nd year of vegetation. The growth decreases with age and in 4-year-old plants reaches minimum. During the season, the greatest increase in height occurs in July and August (in the stalk stage). Watering with a solution of the homeopathic drug "Arnica C200" (experiment 1) during vegetative reproduction of Lycopus americanus causes an increase in height in the first year of vegetation (from 60 days from transplantation) by 30% - 36%. The number of axillary shoots in treated plants by the end of the growing season exceeded the control by 1.6-1.8 times. The dry land mass of treated plants (experiment 1) increased by 34% relative to control group. The treated plants showed an increase in the size of tubers with buds of renewal relative to the control group. The dry mass of the underground part of the treated plants of Lycopus americanus (experiment 1) us by the end of the growing season exceeded that of the control plants by 21%. The average dry mass of 1 tuber at the end of the growing season was 0.63±0.061 gin control plants and 1.17±0.112 gin experimental samples. It is possible to grow Lycopus americanus as a long-term culture in theMoscowregion. The largest increase in biomass of the grain falls on the second year of vegetation. Starting from the third year of vegetation, it is advisable to propagate the plant by dividing the rhizomes in the spring. The homeopathic preparation "Arnica C200" as growth regulator well proved at vegetative reproduction of a Lycopus americanus . Its use causes excessive buildup of Lycopus americanus - storing tubers with the buds of renewal

Fruits and berries are valuable foods that provide the necessary for human consumption: sugars, proteins, fats, mineral salts, organic acids,pectin, tannins and other substances, vitamins. Also raw materials for the food industry, which are used to make juices, jams, marmalades, jams. Due to the crisis, which covered all areas of human activity in Ukraine, the average annual consumption of fruits and berries per unit of population is less than 50% of the biologically justified norm; the area of orchards is 2.7% of the total area of agricultural land (0.8 million hectares), of which 60% is apple orchards. Improving the situation is possible through the intensification of horticulture - obtaining maximum annual yields through the introduction of the latest advances in science and technology, including in the field of mechanization of fruit production. The most time-consuming operation in the technological process of fruit production is harvesting, which, in particular for apples, accounts for 15-40% of the total cost of garden care. It can be emphasized that the cost of growing apples is 92 times higher than for a similar area of cereals. The solution to this problem is possible through the introduction of fruit harvesters, the use of which allows to increase productivity by 3.7-12.6 times, to release an average of 50 people. per day from the use of one machine and reduce operating costs by 30-50% compared to manual assembly. The most widespread at present for fruit harvesting, as evidenced by the trends of the world agricultural machinery industry, are stem vibrating machines of positional action with inertial linear working bodies. At the same time, the use of serial fruiting means, due to the impersonal process of removal, causes damage to trees and fruits, which are suitable mainly for technical processing or urgent sale in fresh form; the productivity of serial fruit harvesters is relatively low.

Vetiver grass [Vetiveria zizanioides (L.) Nash] without seeds, suitable for growing on coastal saline land, has attracted attention because of oil extraction from its roots and industrial and agricultural use. In this study, a pot experiment with different NaCl contents was used to investigate the influence of water salinity levels on vetiver, salt tolerance, and the feasibility of transferring it to coastal saline regions. The results indicated that the fresh weight of roots and shoots increased initially and then gradually decreased with an increase in NaCl content, and the maximum was attributed to a water salinity of 0.3%. The vetiver can tolerate a maximum saline content of up to 2%. The promotion of vetiver growth under water salinity could be attributed to the acceleration of nutrient uptake-induced saline, including K, N, and Cl. The growth of vetiver was insignificantly inhibited with 0.5% water salinity (mild stress), significantly inhibited with 1.0% water salinity (moderate stress: biomass decrease), and severe inhibited with >1.5% water salinity (intense stress: biomass decrease). The salt tolerance of vetiver was due to osmotic regulation by reducing sugars under mild stress and of proline under intense stress, and Na+ sequestration in roots and the transformation of Cl− away from sensitive roots. The vetiver could be cultivated in slightly coastal saline soil (0.1–0.2% soil salinity) and even moderately saline coastal soil (0.2–0.4% soil salinity) under irrigation with low salt water during transplanting.

AbstractThe Bighorn Basin is an important agricultural region in Wyoming. To promote expansion of economic prospects within the Bighorn Basin, we explored the feasibility of introducing alternative crops into the area. Currently, the major crops in this region are sugar beet, barley, alfalfas, and dry beans. Diversification of agricultural cropping systems within the Bighorn Basin is an important step in enhancing the state's economy. This research provides preliminary results for evaluating diversification by determining crops that may potentially be cultivated in the Bighorn Basin region. Four of the 28 alternative crops investigated in this project include amaranth, buckwheat, canola, and faba bean. A Geographic Information System (GIS) was used to combine spatial data identifying areas with unique combinations of characteristics (e.g., soils, frost-free period, temperature, etc.) for introduction of new crops. The GIS was used to compile data layers for different soil and climatic variables. A soils data layer was developed for the study area using a predictive model based on the region's surficial geology, bedrock geology, and elevation. Monthly minimum, mean, and maximum summer temperatures, precipitation, growing degree-days and frost-free season were obtainedfrom weatherstations located in the Bighorn Basin, where 30-year averages have been collected by the National Climate Data Center. Using geostatistics, information obtainedfrom weather stations was utilized to develop continuous data layers for 31 climatic conditions related to the study area. A compilation of growth parameters for 28 alternative crops included various soil and climatic conditions that were used to identify areas with potential to support these new crops. Maps of alternative crop production areas suggested that 8 crops (amaranth, chickpea, onion, quinoa, saffiower, sesame, sorghum, and sunflower) could potentially be cultivated in eastern Bighorn Basin where temperatures are warmer, another 12 crops (broccoli, buckwheat, canola, carrot, cauliflower, crambe, Kentucky bluegrass turf seed, leek, lentil, lettuce, mint, and radish) could be produced in western Bighorn Basin where temperatures are cooler, and 8 additional crops (asparagus, beet, cabbage, cowpea, faba bean, field pea, medic seed, and tall fescue turf seed) may possibly be cultivated throughout the Bighorn Basin study area in suitable soils. The alternative crop production area maps derived from this projectwillbe useful to potential growers, land-use planners, and county and state agencies in the Bighorn Basin seeking information on different agricultural practices and new production systems.

[First paragraph]Sugar, Slavery, and Society: Perspectives on the Caribbean, India, the Mascarenes, and the United States. Bernard Moitt (ed.). Gainesville: University Press of Florida, 2004. vii + 203 pp. (Cloth US $ 65.00)Tropical Babylons: Sugar and the Making of the Atlantic World, 1450-1680. Stuart B. Schwartz (ed.). Chapel Hill: University of North Carolina Press, 2004. xiii + 347 pp. (Paper US $ 22.50)These two books illustrate the fascination that sugar, slavery, and the plantation still exercise over the minds of scholars. One of them also reflects an interest in the influence these have had on the modern world. For students of the history of these things the Schwartz collection is in many ways the more useful. It seeks to fill a lacuna left by the concentration of monographs on the eighteenth and nineteenth centuries, suggesting that we know less about the history of sugar than we thought we did. Perhaps in no other single place is such a range of information on so wide an area presented in such detail for so early a period. Ranging from Iberia to the Caribbean and including consumption as well as production of sugar, with a nod to the slave trade and a very useful note on weights and currencies, this volume is a gold mine of information. It considers (briefly) the theoretical meaning as well as the growing of this important crop, contrasting its production in Iberia with that on the Atlantic islands of Madeira and the Canaries, colonized by Iberian powers, and continuing the contrast with São Tomé, off the coast of Africa, and on to Brazil and the Spanish American empire before ending with the British in Barbados. In the transit, it of necessity considers and complicates the meaning of “sugar revolution” and shows how scholars using that term do not always mean the same thing. John McCusker and Russell Menard, for example, tackling a cornerstone of the traditional interpretation of the development of sugar, argue that there was no “sugar revolution” in Barbados; economic change had already begun before sugar’s advent, though sugar may have accelerated it, and yet sugar production was transformed on the island. They also undercut, without quite denying, the significance of the Dutch role in the process. Schwartz, while questioning, lings to the traditional expression if not the traditional outlook, seeing in Barbados “the beginning of the sugar revolution” (p. 10).

[First paragraph]Sugar, Slavery, and Society: Perspectives on the Caribbean, India, the Mascarenes, and the United States. Bernard Moitt (ed.). Gainesville: University Press of Florida, 2004. vii + 203 pp. (Cloth US $ 65.00)Tropical Babylons: Sugar and the Making of the Atlantic World, 1450-1680. Stuart B. Schwartz (ed.). Chapel Hill: University of North Carolina Press, 2004. xiii + 347 pp. (Paper US $ 22.50)These two books illustrate the fascination that sugar, slavery, and the plantation still exercise over the minds of scholars. One of them also reflects an interest in the influence these have had on the modern world. For students of the history of these things the Schwartz collection is in many ways the more useful. It seeks to fill a lacuna left by the concentration of monographs on the eighteenth and nineteenth centuries, suggesting that we know less about the history of sugar than we thought we did. Perhaps in no other single place is such a range of information on so wide an area presented in such detail for so early a period. Ranging from Iberia to the Caribbean and including consumption as well as production of sugar, with a nod to the slave trade and a very useful note on weights and currencies, this volume is a gold mine of information. It considers (briefly) the theoretical meaning as well as the growing of this important crop, contrasting its production in Iberia with that on the Atlantic islands of Madeira and the Canaries, colonized by Iberian powers, and continuing the contrast with São Tomé, off the coast of Africa, and on to Brazil and the Spanish American empire before ending with the British in Barbados. In the transit, it of necessity considers and complicates the meaning of “sugar revolution” and shows how scholars using that term do not always mean the same thing. John McCusker and Russell Menard, for example, tackling a cornerstone of the traditional interpretation of the development of sugar, argue that there was no “sugar revolution” in Barbados; economic change had already begun before sugar’s advent, though sugar may have accelerated it, and yet sugar production was transformed on the island. They also undercut, without quite denying, the significance of the Dutch role in the process. Schwartz, while questioning, lings to the traditional expression if not the traditional outlook, seeing in Barbados “the beginning of the sugar revolution” (p. 10).

A review is presented of the manufacture and use of different types of plastic, and the effects of pollution by these materials on animal, human and environmental health, insofar as this is known. Since 2004, the world has made as much plastic as it did in the previous half century, and it has been reckoned that the total mass of virgin plastics ever made amounts to 8.3 billion tonnes, mainly derived from natural gas and crude oil, used as chemical feedstocks and fuel sources. Between 1950 and 2015, a total of 6.3 billion tonnes of primary and secondary (recycled) plastic waste was generated, of which around 9% has been recycled, and 12% incinerated, with the remaining 79% either being stored in landfills or having been released directly into the natural environment. In 2015, 407 million tonnes (Mt) of plastic was produced, of which 164 Mt was consumed by packaging (36% of the total). Although quoted values vary, packaging probably accounts for around one third of all plastics used, of which approximately 40% goes to landfill, while 32% escapes the collection system. It has been deduced that around 9 Mt of plastic entered the oceans in 2010, as a result of mismanaged waste, along with up to 0.5 Mt each of microplastics from washing synthetic textiles, and from the abrasion of tyres on road surfaces. However, the amount of plastics actually measured in the oceans represents less than 1% of the (at least) 150 Mt reckoned to have been released into the oceans over time. Plastic accounts for around 10% by mass of municipal waste, but up to 85% of marine debris items – most of which arrive from land-based sources. Geographically, the five heaviest plastic polluters are P.R. China, Indonesia, Philippines, Vietnam and Sri Lanka, which between them contribute 56% of global plastic waste. Larger, primary plastic items can undergo progressive fragmentation to yield a greater number of increasingly smaller ‘secondary’ microplastic particles, thus increasing the overall surface area of the plastic material, which enhances its ability to absorb, and concentrate, persistent organic pollutants (POPs) such as dichlorodiphenyltrichloroethane (DDT) and polychlorinated biphenyls (PCBs), with the potential to transfer them to the tissues of animals that ingest the microplastic particles, particularly in marine environments. Although fears that such microparticles and their toxins may be passed via food webs to humans are not as yet substantiated, the direct ingestion of microplastics by humans via drinking water is a distinct possibility – since 92% of samples taken in the USA and 72% in Europe showed their presence – although any consequent health effects are as yet unclear. Foodstuffs may also become contaminated by microplastics from the air, although any consequent health effects are also unknown. In regard to such airborne sources, it is noteworthy that small plastic particles have been found in human lung tissue, which might prove an adverse health issue under given circumstances. It is also very striking that microplastics have been detected in mountain soils in Switzerland, which are most likely windborne in origin. Arctic ice core samples too have revealed the presence of microplastics, which were most likely carried on ocean currents from the Pacific garbage patch, and from local pollution from shipping and fishing. Thus, sea ice traps large amounts of microplastics and transports them across the Arctic Ocean, but these particles will be released into the global environment when the ice melts, particularly under the influence of a rising mean global temperature. While there is a growing emphasis toward the substitution of petrochemically derived plastics by bioplastics, controversy has arisen in regard to how biodegradable the latter actually are in the open environment, and they presently only account for 0.5% of the total mass of plastics manufactured globally. Since the majority of bioplastics are made from sugar and starch materials, to expand their use significantly raises the prospect of competition between growing crops to supply food or plastics, similarly to the diversion of food crops for the manufacture of primary biofuels. The use of oxo-plastics, which contain additives that assist the material to degrade, is also a matter of concern, since it is claimed that they merely fragment and add to the environmental burden of microplastics; hence, the European Union has moved to restrict their use. Since 6% of the current global oil (including natural gas liquids, NGLs) production is used to manufacture plastic commodities – predicted to rise to 20% by 2050 – the current approaches for the manufacture and use of plastics (including their end-use) demand immediate revision. More extensive collection and recycling of plastic items at the end of their life, for re-use in new production, to offset the use of virgin plastic, is a critical aspect both for reducing the amount of plastic waste entering the environment, and in improving the efficiency of fossil resource use. This is central to the ideology underpinning the circular economy, which has common elements with permaculture, the latter being a regenerative design system based on ‘nature as teacher’, which could help optimise the use of resources in town and city environments, while minimising and repurposing ‘waste’. Thus, food might be produced more on the local than the global scale, with smaller inputs of fuels (including transportation fuels for importing and distributing food), water and fertilisers, and with a marked reduction in the use of plastic packaging. Such an approach, adopted by billions of individuals, could prove of immense significance in ensuring future food security, and in reducing waste and pollution – of all kinds.

Biological and chemical properties of cv. Willamette were contrasted with those of cvs Tulameen, Latham, Meeker and K81-6 grown under agro-environmental conditions of Western Serbia. The following parameters were examined: yield per unit land area, total dry matter content, soluble solids content, total reducing sugars, total acids content, pH value, total pectines and total anthocyanins. The obtained results showed that cvs Willamette and Meeker had exceptional yield potential and highest quality fruits, which renders them suitable for both fresh use and various forms of processing, whereas cv. Tulameen can be recommended for fresh consumption only. K81-6 is recommended for processing and fast freezing after harvesting.

The world’s food production needs to be doubled in order to cover the need of the population by 2050 even if it exceeds 9 billion. The output of agriculture is expected to increase by 1.7% every year until 2020 (OECD, FAO 2011) which is a major decrease in comparison with the average 2.6% increase of the previous decade. At the same time, the meat, dairy, sugar and vegetable oil consumption is likely to increase by 2020 to a higher extent than so far. Due to the increasing food prices, the amount of starving people will increase and food consumption will decrease – especially in developing countries – as people will be able to buy less and only cheaper food products. Also, obesity may become a more severe problem and the inequality of the population’s health status could increase. One of the most important elements of adapting to global climate change is food safety; therefore, it is especially important to breed new biological bases and to introduce production systems which contribute to adapting to changed circumstances.

In the eighteenth century, Haiti was the world’s leading sugar producer, but when cane surged in the Caribbean in the early twentieth century, Haiti produced none. Instead, the land sat idle while workers emigrated to work on sugar plantations. I examine the hypothesis that historical property rights institutions created high transaction costs for converting land to cane production. I collect new data on land-use from 1928–1950 and a proxy for transaction costs. The evidence suggests transaction costs impeded the land market from responding to the sugar boom.

The population growth and/or its use and development of the land is a continuous preoccupation of the decision factors regarding the water supply system in general and the development of the potable water distribution networks in particular. This issue is even more critical especially in the areas of big cities and important urban growing. As the urbanization of land outgrows the existing water supply systems, one of the possible solutions is to expand the water distribution network in order to cover this urban growth. The present paper analyses further the possibilities to define and use certain indices of urban development together with water loss indices in order to determine trends or issues related with the provision of water supply services and connectivity.

. Population growth, economic development and rural-urban migration have caused rapid expansion of urban areas and metropolitan regions in Turkey. The structure of urban administration and planning has faced different socio-economic and political challenges, which have hindered the structured and planned development of cities and regions, resulting in an irregular and uneven development of these regions. We conducted detailed comparative analysis on spatio-temporal changes of the identified seven land-use/cover classes across different regions in Turkey with the use of Corine Land Cover (CLC) data of circa 1990, 2000, 2006 and 2012, integrated with Geographic Information System (GIS) techniques. Here we compared spatio-temporal changes of urban and non-urban land uses, which differ across regions and across different hierarchical levels of urban areas. Our findings have shown that peri-urban areas are growing more than rural areas, and even growing more than urban areas in some regions. A deeper look at regions located in different geographical zones pointed to substantial development disparities across western and eastern regions of Turkey. We also employed multiple regression models to explain any possible drivers of land-use change, regarding both urban and non-urban land uses. The results reveal that the three influencing factors-socio-economic characteristics, regional characteristics and location, and development constraints, facilitate land-use change. However, their impacts differ in different geographical locations, as well as with different hierarchical levels.

This research is aiming at the changing land use from agricultural land to photovoltaic power plant. Geographic information system (GIS) technology was used to indicate the unsuitable areas for five economic crops that are paddy, sugar cane, maize, cassava and para rubber. The assess cost, income, and CO2 emission of the economic crops and photovoltaic power plant are the major factors for the unsuitable agricultural land deciding that will be changed to build photovoltaic power plant. The results found that the unsuitable areas for the 5 economic crops are 241,142 rai and the average solar irradiance is 17.6 MJ/m2.day for this areas which is suitable to build the photovoltaic power plant. The profit/losing of paddy, sugar cane, maize, cassava and para rubber in the suitable areas are-1,193 baht/ton, 33 baht/ton, 85 baht/ton, 259 baht/ton and-9,150 baht/ton, respectively while photovoltaic power plant cost and income are 4.12 baht/kWh and 5.65 baht/kWh respectively. CO2 emission of paddy, sugar cane, maize, cassava, para rubber and photovoltaic power plant are 2,315 kgCO2eq/tonpaddy, 37.15 kgCO2eq/ton, 256.12 kgCO2eq/ton, 29.07 kgCO2eq/ton, 153 kgCO2eq/ton and-0.5743 kgCO2eq/kWh, respectively. From these results, land use changing from economic crops planting in unsuitable areas to build photovoltaic power plant is appropriate and worth in the environmental and the economic aspect.

Several studies in tropical watersheds have evaluated the impact of urbanization and agricultural practices on water quality. In Brazil, savannas (known regionally as Cerrados) represent 23% of the country's surface, representing an important share to the national primary growth product, especially due to intense agriculture. The purpose of this study is to present a comprehensive evaluation, on a yearly basis, of carbon, nitrogen and major ion fluxes in streams crossing areas under different land use (natural vegetation, sugar cane and eucalyptus) in a savanna region of SE Brazil. Eucalyptus and sugar cane alter the transport of the investigated elements in small watersheds. The highest concentration of all parameters (abiotic parameters, ions, dissolved organic carbon DOC - and dissolved inorganic carbon - DIC) were found in Sugar Cane Watersheds (SCW). The observed concentrations of major cations in Eucalyptus Watersheds (EW) (Mg, Ca, K, Na), as well as DIN and DOC, were found frequently to be intermediate values between those of Savanna Watersheds (SW) and SCW, suggesting a moderate impact of eucalyptus plantations on the streamwater. Same trends were found in relation to ion and nutrient fluxes, where the higher values corresponded to SCW. It is suggested that sugar cane plantations might be playing an important role in altering the chemistry of water bodies.

Abstract. Remote sensing applications are directed to agricultural observation and monitoring. It has been huge of scientific papers are dedicated to the research of the contribution of remote sensing for agriculture studies. There are several global challenges needed to be considered within agriculture activities. It can be embraced by the main agriculture sector facing the obstacles impacting the production and productivity of the sector. These are the following options that can be pointed out: biomass and yield estimation; vegetation vigor and drought stress monitoring; assessment of crop phenological development; crop acreage estimation and cropland mapping; and mapping of disturbances and Land Use/Land Cover changes. In this study has been undertaken the realization of satellite-based Land Use/Land Cover monitoring based on various optical satellite data. It has been used satellite images taken from satellites AZERSKY, RapidEye, Sentinel-2B and further processed for Land Use/Land Cover classification. Following the complex approach of the supervised and unsupervised classification, the methodology has been used for satellite image processing. As the main satellite imagery for monitoring crop condition were AZERSKY taken during the growing season, from May to June of 2019 year. The study area was some part of the Sheki region, which covers the central part of the southern slope of the Greater Caucasus Mountain Range within Azerbaijan Republic. In this research work satellite imagery processing and mapping has been carried out on the basis of software application of ArcGIS Pro 2.5.

Abstract Five herbicides, Pennant, Surflan, Devrinol, Ornamental Herbicide 2, and Ronstar, were applied over newly seeded deciduous trees immediately after seeding and Poast was applied when seedlings were actively growing. The trees were river birch, pin oak, willow oak, redbud, flowering dogwood, sugar maple, and sweet gum. No seedlings were damaged by Pennant (4.5 kg/ha) or Poast. Ornamental Herbicide 2 and Ronstar severely damaged river birch, flowering dogwood, and sugar maple. Surflan damaged sugar maple. Devrinol damaged flowering dogwood. Data herein suggest that each species must be evaluated separately for herbicide tolerance.

One of the main groups in agriculture is plant cultivation. The crop production combines growing of grain, cotton, vegetable, viticulture, tobacco cultivation, etc. One of the main factors in the activities of plant-growing as well as in grain-growing is the efficient using of land. Agriculture is characterized by number of specific socio-economic, natural and technological characteristics. Unlike other sectors of the economy, the main means of production is land. Land differs from other agricultural production facilities. Land is not a product of human activity, it is the product of nature. The land area can not be increased nor decreased as other means of production, its natural fertility and productivity can be increased. Land area has been divided into zones according to its location, quality and rating. Agricultural farming on unfavourable land areas requires more funds than on favourable land plots. In the article, using grain crops efficiency data, increase of soil fertility and issues in the direction of increasing productivity facing entrepreneurial farms were studied.

In the last settler's syndrome, each new settler wants the area to remain as it was on their arrival. Newcomers' preferences often differ from long-term residents, and conflicts arise. To explore land use issues among various groups, a survey of opinions on mountain views was developed and administered to Watauga County residents in western North Carolina. Watauga County provides an interesting case study, because it is a growing area with an influx of newcomers along with long-time residents. The results suggest that agreements can be achieved on some land use issues, whereas disagreements will arise on others.

There has been growing interest in Europe in the development of integrated transport strategies, in which individual policy instruments are combined to complement one another and to achieve improved performance against a given set of policy objectives. This paper applies an optimization procedure to identify optimal strategies for packages of transport policy instruments without, and then with, constraints on finance and targets for global warming and safety. Some exploratory tests have also been carried out on land use strategies, and they are reported here in brief. Results demonstrate that the methodology is robust and can be applied with different transport models and with constraints applied both to policy instruments and to objectives. All optimal strategies found involved substantial reductions in fare levels throughout the study area. Where it was not possible to change fares, the strategies were substantially less effective when measured against the objectives. Most optimal strategies involved increases in public transport frequencies, although their scale varied between cities. All optimal strategies included peak-period cordon charges to enter the city center, though the optimal level varied between cities. Financially constrained strategies were found to involve smaller fare reductions and higher cordon charges; in some cases frequency increases were smaller. These constrained optima still performed well; the greatest reduction in benefit was only 15%. The net present value of the benefit generated was about €2,000M (€1 = $1.20 US, 2005) in Edinburgh and more than €4,000M in Leeds, United Kingdom. The impact of transport strategies on land use was small, and development constraints had to be used to reverse urban sprawl.

Vinegar could be produced from any fruit juice. Coconut water as raw material was used by increasing sugar concentration. Vinegar is one of the alternatives in the use of coconut water waste. This is supported by the needs of the growing vinegar. Vinegar manufacture involves two stages of fermentation (anaerobic and aerobic). Aerobic fermentation by adding yeast and sugar yield of 12% alcohol (the alcohol optimal), where as aerobic fermentation produces vinegar 4% -12.5% (SNI). The purpose of this study were to determine the optimal percentage of the addition of yeast and sugar to produce alcohol 12%, and to compare the quality of coco vinegar with SNI 01-3711-1995 vinegar. This study used factorial completely randomized design , the adding sugar and yeast as treatment, 3 level of adding sugar and yeast with 3 observations. Results of variance analysis showed that the treatment was very real effect on levels of alcohol and alcohol pH. The Duncans Multiple Range Test (DMRT) showed that the highest quality levels of alcohol present in addition of 16% sugar and 6% of yeast. while the pH of alcohol contained in the addition of yeast 4.5% and sugar 10%

The study was conducted at Arid Zone Research Centre (AZRC), Dera Ismail Khan (D.I.Khan) to evaluate cost and benefit of wheat cultivation in district Dera Ismail Khan, Khyber Paktoon Khwa province of Pakistan during 2015. The basic underlying assumption of economic analysis of wheat production was to assess the farmers/growers financial impact of wheat cultivation. A sample of 200 respondents from 10 major wheat growing villages of the respective areas of the district was interviewed through pretested questionnaire. The study revealed that the cost of wheat production was Rs=35,680 per acres, whereas output comes 1650 Kg per acre (42 mounds) amounting Rs=63,600 per acre. Farmers' margin also rises by adding the value of family labour and owned land which is sufficient to sustain a normal family. Moreover, positive influence between return price and output of wheat was concluded from the study, whereas negative effect of cost was also observed. The output elasticity of Land Preparation (LP), Seed and Sowing (SS), Farm Inputs (FI), Irrigation (Irr), Pesticides (Pest) and Harvesting/Threshing (HT) are 0.124587, 0.31244, 0.5874, 0.55461, 0.08248 and 0.65743, respectively.

The Chironomidae family is the most abundant and diverse member of the benthic community in streams, yet their identification is still neglected in many papers. It is considered a family tolerant to environmental impacts and with homogeneous feeding habit. AIM: To compare the richness, abundance and taxonomic composition of Chironomidae in Cerrado streams under different land uses as well as the feeding habit differences between genera of reference areas, sugar cane culture and pasture. METHODS: We selected seven streams in each land use and sampled six units using Surber sampler. The material was transported live for laboratory processing. RESULTS: Our results showed no significant differences in abundance and richness of Chironomidae among different land use, but we observed greater average values of abundance and richness in streams impacted by pasture. We found a distinct taxonomic composition between reference streams and impacted streams, both sugar cane and pasture. Stenochironomus was the most representative genus in reference areas, while Parametriocnemus was in sugar cane culture and Tanytarsus in pastures. The only statistically different feeding pattern found were between Cerrado streams and sugar cane for plant tissues, reflecting the greater abundance of Stenochironomus in Cerrado and among Cerrado streams and pasture for microalgae. CONCLUSIONS: We conclude that the conversion of natural areas in monocultures and pastures directly impact streams by modifying the taxonomic structure of Chironomidae. In contrast we did not observe a clear change in feeding patterns, because in all streams the diet pattern was mostly detritivorous.

Winter wheat fallow policy has a greater effect on water resource management, and the water-saving effect in the fallow process of winter wheat can provide data support for precise water resource utilization planning. In order to evaluate the water resource consumption of winter wheat and the related effect from winter wheat fallow, this study searched the changing trends of cultivated land evapotranspiration under five different scenarios through the object-oriented extraction method and a SEBS model based on multi-source data. The results indicated that the evapotranspiration during winter wheat growing period was higher than that of winter wheat fallow land, and there was no big difference in evapotranspiration between the fallow land during harvesting and the emergence of new crops. The evapotranspiration of winter wheat was higher than that of various fallow land, and the evapotranspiration of abandoned land was higher than other fallow land in the winter wheat growing season. From this point, this study concludes that the fallow land policy can effectively reduce evapotranspiration during the growing of winter wheat, which is conducive to the sustainable exploiting of water resources.

Relevance of research topic. The number of Ukrainian holding-type organizations and their land bankcontinues to grow, "displacing" small and medium-sized producers from the agricultural economy.Since 2019, state policy has been refocusing on forced support for small and small-scale farms, and after the Ukrainian decentralization reform the leadership of the united territorial communities of the new tools they received depends on the development of small and medium-sized businesses. Formulation of the problem. Today, the actualization of local economic development requires significant financial resources from the united territorial communities. And the formation of their budget depends on the effectiveagricultural sector operation. After the Ukrainian reform of local self-government and decentralization, the economic development of the territories and of Ukraine as a whole, depends on the using of new tools and resources by the community leadership. The solution of theagrarian sphere problems of the united territorial communities is in the plane ofsmall agrarian entrepreneurship state support, strengthening of the state control over the activity of large agro-traders, as well as their social and financial responsibility to the united territorial communities. Analysis of recent research and publications. Theoretical questions on the study of small agrarian entrepreneurship in the development of united territorial communities were engaged in such scientists of the Institute of Economics of NASU, Institute of Agrarian Economics of NAAS of Ukraine, as Shemyakin D., Finagina O. V., Lysetsky A. S., Onishchenko O. M., and other national and foreign scientists. Selection of unexplored parts of the general problem. The issue of the impact of decentralization on theagricultural sector development of the united territorial communities needs to be detailed and further researched. Setting the task, the purpose of the study. The article aim is to investigate the theoretical aspect of organizational and legal foundations of the formation of united territorial communities in Ukraine, assess thesmall agricultural business current state and trace its relationship with the activities of united territorial communities for economic development. Method or methodology for conducting research. The set of general scientific methods of cognition and special methods of economic research are used in the work. Among them: analysis and synthesis, generalization and comparison, system-structural and comparative analysis, systematic method of cognition of economic processes and phenomena, index method and method of statistical groupings for analysis of united territorial communities activity development of the agro-industrial complex of Ukraine. Presentation of the main material (results of work). The article considers the theoretical aspect of organizational and legal foundations of the united territorial communities formation in Ukraine, assesses the current state of small agricultural business and reveals it’s main relationships with the united territorial communities activities for region economic development. Territorial communities are voluntary associations of residents of city, village and settlement councils, which directly receive funding from the state budget for the development of education, medicine, sports, culture, and social protection. Financial support from the state gives more opportunities to local communities to implement their own projects. The more active the territorial community, the more projects will be implemented and theterritorial communityprofitability level will be higher, which it will spend on the development of territories. This is the main incentive to attract additional investment to improve people's living standards. In 2020, theUkrainian Cabinet of Ministers adopted 24 orders on the definition of administrative centers and approval ofregional community’s territories. There are 1469 territorial communities in our country. After the launch of the decentralization process in Ukraine – the transfer of powers and resources to places from which the community itself determines the direction of funding, small communities require forresource lack for rural development. The solution has beena decision to consolidate several councils by merging, which allowed communities to use common resources for territorial development. Ukraine owns 60.3 million hectares, which is about 6% of Europe's territory.There are 32.7 millionarable land hectares of land in the structure ofUkrainian agricultural territory, of which almost 9 million are used as pastures, hayfields and other agricultural lands. The quarter of agricultural land was never distributed, remaining on the balance of the state. Thus, state and the communal property include 10.5 million hectares of agricultural land, which is 26% of the total area, of which 3.2 million hectares – in the permanent use of state enterprises, 2.5 million hectares – in stock, and the rest – for rent. Almost 40% of the total number of Ukrainian enterprises in the agricultural sector and 38% of the area of agricultural land cultivated by agricultural enterprises are absorbed by agricultural holdings and large agricultural traders. On June 1, 2019, there were more than 160 large agricultural holdings in the country, they cultivate more than 3.6 million hectares of agricultural land. Thus, today in Ukraine the number of holding-type organizations and their land bank continues to grow, "displacing" small and medium-sized producers from the agricultural economy. Thecommunity agrarian branch is a complex multi-sectoral system, the individual subsystems of which are unevenly represented in different territorial formations, but are in close interaction with each other. The role of small agrarian businesses in the development of united territorial community’sagriculture is constantly growing. In recent years, the share of farms has increased by 30%. With the development of farming in the agricultural regions of Ukraine, the opportunities to solve the problem of employment in rural areas and the revival of territories in general are increasing. Therefore, state support for agricultural producers is an important step in order to obtain funds for small business development in the agro-industrial sector. If earlier the preference of vectors of state support was in large agro-traders, then from 2019 the policy of the state was reoriented to the strengthened support of small and small-scale farms. Such support is confirmed by financial preferences for small agribusiness through regional branches of the Ukrainian State Farm Support Fund. Agricultural cooperatives will receive state support through cooperation with the Ministry of Agriculture of Ukraine with the assistance of the Department. Thus, today the promissory note form of payment has been abolished, and 70% of the cost of their equipment has been reimbursed for cooperatives. As a result of the crisis of 2014-2016, many Ukrainians started doing business and many successful cases of micro and small agricultural enterprises operating in the regions appeared in the country. However, barriers to rural development are a lack of financial resources and a lack of economic knowledge. Therefore, in order to maximally support farms and agro-industrial entrepreneurship in rural areas by the state, high-quality interaction and communication on the ground is needed. Thus, in addition to financial support, the state program also includes advising agricultural producers. Experienced specialists will help to structure the business, calculate the financial and create a business plan. In 2020, the budget of financial support for the agro-industrial sector of Ukraine is set at 4 billion UAH, which is only 43% of the limit – does not meet 1% of GDP. the real need for financial state support of a key sector of Ukraine's economy. The implementation of the program of financing micro and small agribusiness has great potential not only in the country, but also within each united territorial community. Each of them, which participates in the program of state support of small agrarian business, annually receives about 75 thousand UAH of taxes to its budget. On a national scale, this is an additional UAH 75 million ($ 3.06 million) in taxes to local budgets over 5 years. The possibility of organizational and legal forms of micro and small agribusiness, according to the current legislation of Ukraine, to hire labor – partially solves the problem of unemployment in rural areas. A significant contribution is also made by micro and small agribusiness in increasing the volume of gross domestic product in Ukraine. Small and medium business in Ukraine brings 55% of gross domestic product to the country's economy, and micro and small business 16%, while in Europe the figure is twice as high, and their efficiency is 10 times higher than in our country. It is the subjects of small and medium-sized businesses in the field of agriculture that are powerful catalysts and stimulators of business activity, determine the unification of all participants in economic relations in the country. Therefore, state support and effective development of united territorial community’sagribusiness create the basis for the emergence and functioning of the institutional environment. Thus, giving 12% of Ukraine's GDP and providing jobs for members of the local community, small agribusiness entities need the development of agricultural equipment suppliers, agricultural processors, research institutions that conduct breeding work and develop modern technologies, logistics infrastructure, market structures, as well as institutions of agricultural education. The agro-industrial sphere of the community is the main means of ensuring the socio-economic development of territorial united territorial communitiesand the effective functioning of rural areas. However, the distribution of agricultural land and land ownership remains an urgent problem for united territorial communities, as in addition to the territorial base, the land is a means of agricultural production. The population of the united territorial community is the main consumer of agricultural products produced by small agricultural enterprises. So, it provides a reproduction of labor for the industry. The vector of development of united territorial community’sagricultural production depends on the availability of natural, productive and labor resources of the community. The most energy-intensive are the production of vegetable crops, sugar beets, potatoes, industrial crops, as well as certain livestock industries, which are more often engaged in by farms and small agricultural enterprises. The study found that in Ukraine, government measures are the main obstacle to the development of agro-industrial entrepreneurship in united territorial communities, because it creates an extremely unfavorable climate for the development of small and medium enterprises or prohibits it altogether. For many years in a row, the sources of budget formation, which are generally local taxes, remain a significant problem in the development of agriculturally oriented united territorial communities. The limitation of incomes of agricultural enterprises and the population is the low efficiency of agricultural enterprises, the main reason for which is the low wages of peasants. The reason for this problem in the agricultural sector is low productivity, which forms the added value of agricultural products. Examining the structure of Ukrainian small agrarian business, its players in general education were classified into two large groups: 1. Farmers and agricultural producers living and working in rural areas. They live in a society within the lands of which they rent shares, pay all the necessary taxes, provide residents of general education with jobs, finished agricultural products at affordable prices. 2. Farmers who are registered in Ukrainian cities, however, use the land of the community, paying only the rent of agricultural land, depleting them due to non-compliance with crop rotations. Such agro-traders enjoy state support, soft loans and other preferences, receive super-profits and in no way contribute to the development of agricultural areas and society. These are the activities of large agro-industrial holdings, the form of interaction with rural general education and the mechanisms of social responsibility which need to be worked out with the help of the following measures by the government and agricultural producers: 1) development and restoration of the infrastructure of the united territorial communities and its elements used by agricultural holdings; 2) use of modern ecologically safe agrotechnologies. 3) training of qualified specialists in the field of agro-industrial complex, their employment in modern agro-industrial companies; 4) state support, restoration and preservation of recreational and health facilities of the united territorial communities, including agricultural lands, which are leased by large agricultural holdings; 5) involvement in the economic activity of the agricultural holding of farms on a partnership basis. Thus, partnerships and cooperation between large agricultural holdings and small agricultural producers of united territorial communities can contribute not only to the development of small agricultural businesses in Ukraine, but also to the socio-economic development of society and rural areas in general. The field of application of results. Thescientific research results on the problems of small agricultural entrepreneurship in the development of united territorial communities can be used in the field of state regulation of agribusiness and united territorial communities to support local agricultural producers. Conclusions according to the article. The agro-industrial sphere of the communities is the main means of ensuring the socio-economic development of territorial communities and the effective functioning of rural areas, because the development of farming opportunities increases the problem of rural employment and the revival of territories in general. That is why state support for agricultural producers is an important step to obtain funds for small business development in the agro-industrial sector.

Field experiments were performed in Southern Finland on three soil types: fine sand (1989-1991), clay (1989) and mull (1990-1991). The following soil mechanical treatments were applied to autumn ploughed land: soil loosening by ridge preparation (ridge distance 45 cm), rotary harrowing (to a depth of 20 cm, clay 15 cm), and soil compaction track by track by a tractor weighing 3 Mg (1 or 3 passes, wheel width 33 cm) before seed bed preparation. One plot was untreated. These treatments were set up in April (on clay in May) under moist soil conditions. Sprinkler irrigation (one application of 30 mm) was applied to clay and fine sand when soil moisture in top soil had decreased to around 50% of plant-available water capacity. PVC cylinders (r = 15 cm, h = 60 cm) were fixed in the experimental areas during the growing periods. At harvest, these cylinders were removed for specific analysis of tap and fibrous roots of carrot. Length and width of fibrous roots were quantified by image analysis in the USA. The impacts of soil loosening and partial compaction were determined by measuring soil physical parameters to a depth of 25 cm in mineral soils, and to greater depths in organic soil. Dry bulk densities of the plough layers increased with increasing tractor passes by 8%, 10% and 13% for fine sand, mull and clay soils, respectively. The lowest dry soil bulk density in the plough layer was obtained by rotary harrowing to a depth of 20 cm. Comparison of gamma ray transmission and gravimetric analysis indicated that dry soil bulk density was slightly lower when determined by gravimetric analysis. Increased soil bulk densities were reflected by increased water retention capacity (matric suction ≤ 10 kPa) and greater penetrometer resistance. Relatively similar increases in bulk density increased the penetrometer resistance much less in mull than in fine sand. In contrast, greater bulk densities in the mull soil affected soil air composition adversely by decreasing the O2 content to 10% when the subsoil had high wetness. In other soils, the lowest soil oxygen contents of 16-18% were recorded in early summer (compacted clay) and during periods of vigorous plant growth (fine sand) when soil water contents were high. Even though the highest degree of soil compactness (D) in a plough layer approached 93 (gravimetric) in all soils, only clay soil was compacted to a soil macro-porosity below 10% (pore diameter > 30 μm). Soil compaction promoted crop establishment and early growth as compared with loose soil beds. Optimum soil compactness for carrot yield (D = 82) was observed only in clay field where excess loosening or compaction affected yield quantity adversely at different stages of growth. During biomass accumulation, excessive penetrometer resistances limited tap root growth in compacted fine sand without irrigation. Water applications promoted shoot growth, but did not affect final shoot and tap root yield. Among the three soil types tested in this study, compaction of mull soil had the least effect on carrot growth and external quality. This paper presents evidence that the internal quality of carrots is only slightly affected by changes in soil physical properties, while the adverse effects of soil compaction on carrot external quality (short, deformed and conical tap roots with greater maximum diameters) are clear. Even though compacted clay soil greatly limited the biomass accumulations in the tap root, which had a high crude fibre content, the carotene (10 mg/100 g carrots) and sugar contents (5%) reached acceptable levels. The lowest carotene contents (4 mg/100 g carrots) were observed in loose mull, following a cool late summer in 1990. The effect of irrigation on carotene content varied from one year to another. High sugar and carotene contents appeared to respond to the high below-ground absorption surface. The fibrous root system of carrots, consisting of mostly very fine roots (diameter 0.15 mm), had total lengths of 150 m in loose fine sand at a soil depth of 0-50 cm (rotary harrowed), 200 m and 300 m in fine sand and mull soils subjected to 3 passes by a tractor wheel. The maximum dry weight (60 μg), length (1.2 cm) and surface area (0.05 cm2) of the fibrous root system per soil volume (cm3) were observed in compacted or irrigated soil to a depth of 30 cm, and also in relation to tap root dry weight. This suggests a capacity of carrot plant for high below-ground absorption potential and optimal biochemial maturation of tap root tissue even when surface soils are compacted. This is supported by higher leaf area, as the early shoot growth was promoted by partial soil compaction. Soil compaction affected the soil physical properties and carrot external quality in agreement with previous studies. Carotene and sugar contents appeared to be unaffected or were slightly increased in riper and firmer carrots of compacted soils. This is consistent with the earlier information about the internal quality of carrot which is shown to be highly dependent on genetic factors and developmental stage of carrot. The present study emphasizes the surface area of carrot fibrous root system as a beneficial factor for maintaining high levels of carotene and sugar contents in tap roots after partial soil compaction.

Sugar beet occupies only a minor proportion of the total area of agricultural land in Britain, but it is of major importance to mixed cropping farms in the Eastern Counties of England, where soil and climate combine to give ideal growing conditions. This region produces more than half the annual United Kingdom output, and forms part of the major beet producing area in the European Community, which stretches from the Ile de France and Champagne-Ardenne in France, through southern Belgium to the western regions of the Netherlands. This paper is based on an extensive series of studies of beet production and reports on farming in the Eastern Counties of England, prepared since the mid-1920s by the Farm Economics Branch, and later by the Agricultural Economics Unit, of the Department of Land Economy at the University of Cambridge. After sketching the historical background, it discusses some of the more significant developments – in crop husbandry, structural change, in the substitution of labour for capital and specialisation, and accession to the European Community – which took place in the four decades of unprecedented progress up to 1985.

Drought severity and impact assessments are necessary to effectively monitor droughts in semi-arid contexts. However, little is known about the influence land use-land cover (LULC) has—in terms of the differences in annual sizes and configurations—on drought effects. Coupling remote sensing and Geographic Information System techniques, drought evolution was assessed and mapped. During the growing season, drought severity and the effects on LULC were examined and whether these differed between areas of land change and persistence. This study used areas of economic importance to Botswana as case studies. Vegetation Condition Index, derived from Normalised Difference Vegetation Index time series for the growing seasons (2000–2018 in comparison to 2020–2021), was used to assess droughts for 17 constituencies (Botswana’s fourth administrative level) in the Central District of Botswana. Further analyses by LULC types and land change highlighted the vulnerability of both human and natural systems to drought. Identified drought periods in the time series correspond to declared drought years by the Botswana government. Drought severity (extreme, severe, moderate and mild) and the percentage of land areas affected varied in both space and time. The growing seasons of 2002–2003, 2003–2004 and 2015–2016 were the most drought-stricken in the entire time series, coinciding with the El Niño southern oscillation (ENSO). The lower-than-normal vegetation productivity during these growing seasons was evident from the analysis. With the above-normal vegetation productivity in the ongoing season (2020–2021), the results suggest the reversal of the negative vegetation trends observed in the preceding growing seasons. However, the extent of this reversal cannot be confidently ascertained with the season still ongoing. Relating drought severity and intensities to LULC and change in selected drought years revealed that most lands affected by extreme and severe drought (in descending order) were in tree-covered areas (forests and woodlands), grassland/rangelands and croplands. These LULC types were the most affected as extreme drought intersected vegetation productivity decline. The most impacted constituencies according to drought severity and the number of drought events were Mahalapye west (eight), Mahalapye east (seven) and Boteti west (seven). Other constituencies experienced between six and two drought events of varying durations throughout the time series. Since not all constituencies were affected similarly during declared droughts, studies such as this contribute to devising appropriate context-specific responses aimed at minimising drought impacts on social-ecological systems. The methodology utilised can apply to other drylands where climatic and socioeconomic contexts are similar to those of Botswana.