ABSTRACT
In the agricultural sector, companies involved in the production of plastic greenhouses are currently searching for a suitable covering adapted for every climate in the world. For this purpose, this research work has determined the chemical, radiometric and mechanical properties of 53 polymeric films samples from Europe and South America. The chemical tests carried out with these samples were elemental analysis (C, H and N) and FT-IR spectrometry. The radiometric properties here studied were the transmission, absorption and reflection coefficients along the spectrum between 300 and 1100 nm. For the mechanical properties, tensile strength, tear strength and dart impact strength, tests were carried out. Finally, all these data were collected, and a multivariate statistical analysis was carried out using the SPSS statistical to group the samples into statistical groups adapted to specific climatic regions. The elemental analysis and FT-IR spectrometry allowed group the samples into nine groups. The samples were grouped according to their chemical (elemental analysis), radiometric and mechanical properties by multivariate analysis. The dendrogram separated five very different groups in terms of number of samples. These groups have specific chemical, radiometric and mechanical characteristics that separate them from the rest. These groups make it possible to narrow down the applications and correlate with the radiometric properties to see in which geographical area of the world they are most effective in increasing yields and achieving higher quality production.
ABSTRACT
In Colombia, the second-largest exporter of cut flowers worldwide and one of the South American countries with the largest area of crops under cover, passive or naturally ventilated greenhouses predominate. Locally, there are several types of greenhouses that differ in architecture, size, height, shape of roof and ventilation surfaces, of which many characteristics of the microclimate generated in their interior environment are unknown. This generates productive limitations that in some way may be limiting the yield, quality and health of the final products harvested; in addition, Colombian producers do not have the ability to monitor the microclimate of their farms, much less to correlate microclimate data with data on crop production and yield. Therefore, there is a need for the Colombian grower to know the most relevant microclimate characteristics generated in the main greenhouses used locally. The objective of this work was to carry out a microclimatic characterization of the five most used types of greenhouses in Colombia. The main results allowed determining that in these structures, there are conditions of high humidity and low vapor pressure for several hours of the day, which affects the physiological processes of growth and development of the plants. It was also identified that for each type of greenhouse, depending on the level of radiation, there is a significant microclimatic heterogeneity that may be the cause of the heterogeneity in plant growth, which is a common characteristic observed by the technical cultivation personnel. Therefore, it can be concluded that it is urgent to propose microclimatic optimization strategies to help ensure the sustainability of the most important production systems in the country.
Subject(s)
Crop Production , Microclimate , Colombia , Farms , HumidityABSTRACT
Phthalic acid esters (PAEs) were determined in polyethylene covers used in horticultural production units located at Moreno and La Plata districts (Buenos Aires, Argentina), detecting 0.69-8.75 mg PAEs kg-1 plastic in greenhouse and tunnel films. The PAEs found were diisobutylphthalate (DIBP), dibutylphthalate (DBP) and diethylhexylphthalate (DEHP). DBP was chosen as a model molecule to carry out the photochemical degradation studies that led to the formation of monobutylphthalate (MBP) and phthalic acid (PA). DBP, MBP and PA migration from plastic covers was studied, finding that while DBP and MBP moved to soil and atmosphere in short times (<48 h), PA remained in the agricultural covers. Further experiments with DBP were made to explore the effect on migration of temperature (20 °C, 50 °C), film thickness (25 µm, 100 µm) and plastic ageing by solarization, observing that temperature increase, film thickness reduction and ageing by solarization favored DBP migration to the environment. DBP and MBP impact on soil were evaluated by avoidance and reproduction tests using Eisenia andrei as bioindicator. Both compounds reduced cocoon viability decreasing the number of juveniles at the lowest concentration assayed (0.1 mg kg-1 of soil). At higher DBP and MBP concentrations the reproductive parameters (number of total cocoons, hatchability and number of juveniles) also showed alterations compared with the controls. Carboxylesterases (CaE), cholinesterases (ChE) and glutathion-S-transferases (GST) activities were analyzed in E. andrei exposed to DBP; cholinesterases activities were reduced at 1 and 10 mg DBP kg-1 soil, and glutathione S-transferases activities were increased at 10 mg DBP kg-1 soil while no effect was observed on carboxylesterases activities. These results emphasize the need to continue studying the impact of PAEs and their photodegradation products on the environment.
Subject(s)
Phthalic Acids , Soil Pollutants , China , Dibutyl Phthalate/toxicity , Esters , Photolysis , Phthalic Acids/toxicity , Plastics , Soil , Soil Pollutants/analysis , Soil Pollutants/toxicityABSTRACT
World population growth currently brings unequal access to food, whereas crop yields are not increasing at a similar rate, so that future food demand could be unmet. Many recent research works address the use of optimization techniques and technological resources on precision agriculture, especially in large demand crops, including climatic variables monitoring using wireless sensor networks (WSNs). However, few studies have focused on analyzing the dynamics of the environmental measurement properties in greenhouses. In the two companion papers, we describe the design and implementation of three WSNs with different technologies and topologies further scrutinizing their comparative performance, and a detailed analysis of their energy consumption dynamics is also presented, both considering tomato greenhouses in the Andean region of Ecuador. The three WSNs use ZigBee with star topology, ZigBee with mesh topology (referred to here as DigiMesh), and WiFi with access point topology. The present study provides a systematic and detailed analysis of the environmental measurement dynamics from multiparametric monitoring in Ecuadorian tomato greenhouses. A set of monitored variables (including CO2, air temperature, and wind direction, among others) are first analyzed in terms of their intrinsic variability and their short-term (circadian) rhythmometric behavior. Then, their cross-information is scrutinized in terms of scatter representations and mutual information analysis. Based on Blandâ»Altman diagrams, good quality rhythmometric models were obtained at high-rate sampling signals during four days when using moderate regularization and preprocessing filtering with 100-coefficient order. Accordingly, and especially for the adjustment of fast transition variables, it is appropriate to use high sampling rates and then to filter the signal to discriminate against false peaks and noise. In addition, for variables with similar behavior, a longer period of data acquisition is required for the adequate processing, which makes more precise the long-term modeling of the environmental signals.
ABSTRACT
Energy partitioning and methane production by sheep fed silages of three commercially available sorghum hybrids (BRS 610, BR 700 and BRS 655) harvested at three maturation stages (milk, soft dough and floury) were evaluated in open circuit respiration chambers. A complete randomized design was used in a 3 × 3 (hybrids × maturity stages) factorial arrangement, and the means were compared by the Student-Newman-Keuls (SNK) test (P<0.05). The intake of dry matter, digestible dry matter, gross energy, digestible energy and metabolizable energy were not affected by maturation stage, but were influenced by hybrid. The net energy intake was influenced by maturity and sorghum genetics. The fecal output represented the main source of energy loss, as percentage of gross energy intake (48% to 52%), followed by heat increment (10% to 19%), methane emissions (4% to 6%) and urine (1% to 2%). There were no differences (P>0.10) among the treatments for the apparent digestibility of gross energy and metabolizability (qm). An interaction (P<0.05) between sorghum hybrid and maturation stages was observed for the efficiency of metabolizable energy utilization for maintenance (km), which ranged between 0.53 and 0.78. No differences (P>0.10) among treatments occurred in the daily methane production. There is substantial genetic diversity within sorghum species, determining different nutritional values. Sorghum genetics and maturity at harvest should not be an opportunity to reduce the contribution of agriculture to methane emissions.
A partição de energia e a produção de metano por ovinos alimentados com silagens de três híbridos de sorgo comerciais (BRS 610, BR 700 e BRS 655), colhidos em três estádios de maturação (leitoso, pastoso e farináceo), foram avaliadas em câmaras respirométricas de circuito aberto. Utilizou-se delineamento inteiramente ao acaso, em arranjo fatorial 3 x 3 (híbridos x estádios de maturação), e as médias foram comparadas pelo teste Student-Newman-Keuls (SNK) (P<0,05). Os consumos de matéria seca, de matéria seca digestível, de energia bruta, de energia digestível e de energia metabolizável não foram afetados pelo estádio de maturação, mas foram influenciados pelo híbrido de sorgo. O consumo de energia líquida foi influenciado pela maturidade e pelo híbrido. As perdas de energia nas fezes representaram a principal fonte de perda energética como porcentagem do consumo de energia bruta (48% a 52%), seguida pelo incremento calórico (10% a 19%), pela emissão de metano (4% a 6%) e pela urina (1 a 2%). Não houve diferenças (P>0,10) entre os tratamentos para a digestibilidade aparente da energia bruta e para a metabolizabilidade (qm). Foi observada interação (P<0,05) entre híbrido de sorgo e estádio de maturação para eficiência de uso da energia metabolizável para mantença (Km), que variou entre 0,53 e 0,78. Não ocorreram diferenças (P>0,10) entre tratamentos na produção diária de metano. A emissão de metano em gramas por kg de matéria seca digestível e por kg de fibra em detergente neutro digestível foi inferior no estádio pastoso comparado ao estádio farináceo.
Subject(s)
Animals , /analysis , Methane/analysis , Sheep/metabolism , Sorghum/growth & development , Nutritive Value/physiology , Calorimetry, Indirect/veterinary , SilageABSTRACT
Energy partitioning and methane production by sheep fed silages of three commercially available sorghum hybrids (BRS 610, BR 700 and BRS 655) harvested at three maturation stages (milk, soft dough and floury) were evaluated in open circuit respiration chambers. A complete randomized design was used in a 3 × 3 (hybrids × maturity stages) factorial arrangement, and the means were compared by the Student-Newman-Keuls (SNK) test (P<0.05). The intake of dry matter, digestible dry matter, gross energy, digestible energy and metabolizable energy were not affected by maturation stage, but were influenced by hybrid. The net energy intake was influenced by maturity and sorghum genetics. The fecal output represented the main source of energy loss, as percentage of gross energy intake (48% to 52%), followed by heat increment (10% to 19%), methane emissions (4% to 6%) and urine (1% to 2%). There were no differences (P>0.10) among the treatments for the apparent digestibility of gross energy and metabolizability (qm). An interaction (P<0.05) between sorghum hybrid and maturation stages was observed for the efficiency of metabolizable energy utilization for maintenance (km), which ranged between 0.53 and 0.78. No differences (P>0.10) among treatments occurred in the daily methane production. There is substantial genetic diversity within sorghum species, determining different nutritional values. Sorghum genetics and maturity at harvest should not be an opportunity to reduce the contribution of agriculture to methane emissions(AU)
A partição de energia e a produção de metano por ovinos alimentados com silagens de três híbridos de sorgo comerciais (BRS 610, BR 700 e BRS 655), colhidos em três estádios de maturação (leitoso, pastoso e farináceo), foram avaliadas em câmaras respirométricas de circuito aberto. Utilizou-se delineamento inteiramente ao acaso, em arranjo fatorial 3 x 3 (híbridos x estádios de maturação), e as médias foram comparadas pelo teste Student-Newman-Keuls (SNK) (P<0,05). Os consumos de matéria seca, de matéria seca digestível, de energia bruta, de energia digestível e de energia metabolizável não foram afetados pelo estádio de maturação, mas foram influenciados pelo híbrido de sorgo. O consumo de energia líquida foi influenciado pela maturidade e pelo híbrido. As perdas de energia nas fezes representaram a principal fonte de perda energética como porcentagem do consumo de energia bruta (48% a 52%), seguida pelo incremento calórico (10% a 19%), pela emissão de metano (4% a 6%) e pela urina (1 a 2%). Não houve diferenças (P>0,10) entre os tratamentos para a digestibilidade aparente da energia bruta e para a metabolizabilidade (qm). Foi observada interação (P<0,05) entre híbrido de sorgo e estádio de maturação para eficiência de uso da energia metabolizável para mantença (Km), que variou entre 0,53 e 0,78. Não ocorreram diferenças (P>0,10) entre tratamentos na produção diária de metano. A emissão de metano em gramas por kg de matéria seca digestível e por kg de fibra em detergente neutro digestível foi inferior no estádio pastoso comparado ao estádio farináceo(AU)
Subject(s)
Animals , Sheep/metabolism , /analysis , Methane/analysis , Sorghum/growth & development , Nutritive Value/physiology , Calorimetry, Indirect/veterinary , SilageABSTRACT
Horticulture makes intensive use of soil and extensive use of polyethylene (PE) sheeting and pesticides, producing an environment where the dynamics between soil and plastics can affect pesticide fate. We have determined that the presence of plastic residues in the horticultural soil of small production units equals 10% of the soil area, being meso and macro-sections the predominant fragment sizes. All soil samples were taken from different plots located in Cuartel V, Moreno district, in the suburbs of Buenos Aires city, Argentina. Laboratory experiments were conducted to see the relations among pesticide, soil and PE film. Endosulfan recovery from LDPE films (25µm and 100µm) was studied, observing evidence that indicated migration to the inside of the plastic matrix. To further analyze the dynamics of pesticide migration to soil and atmosphere, experiments using chlorpyrifos, procymidone and trifluralin were performed in soil-plastic-atmosphere microenvironments, showing that up to 24h significant amounts of pesticides moved away from the PE film. To determine whether PE residues could act as potential pesticide collector in soil, column elution experiments were done using chlorpyrifos, procymidone and trifluralin. Results showed an important pesticide accumulation in the mulch film (584µg-2284µg pesticide/g plastic) compared to soil (13µg-32µg pesticide/g soil). Finally, chemical and photochemical degradation of deltamethrin adsorbed in PE film was studied, finding a protective effect on hydrolysis but no protective effect on photodegradation. We believe that a deeper understanding of the dynamics among soil, plastic and pesticides in horticultural productive systems may contribute to alert for the implications of PE use for plastic sheeting.
Subject(s)
Environmental Monitoring , Polyethylene/analysis , Soil Pollutants/analysis , Soil/chemistry , Agriculture , Argentina , Pesticide Residues/analysis , Pesticides/analysisABSTRACT
La agricultura en El Salvador es una actividad que se desarrolla aplicando técnicas tradicionales con poco grado de ingeniería y de automatización por parte de los agricultores. En el país existen pocas empresas dedicadas a la producción de verduras y hortalizas por medio de sistemas de invernaderos automatizados o con cierto de grado de control. Los costos de instalación de estos sistemas automatizados representan una alta inversión para la mayoría de agricultores que desean entrar en la industrialización de sus cultivos y aumentar la productividad y calidad de sus cosechas para lograr exportar sus frutos. Es por eso que la Escuela Especializada en Ingeniería ITCA-FEPADE, en conjunto con la Escuela Nacional de Agricultura ENA, se encuentra trabajando en el diseño y montaje de un prototipo de sistema automatizado para invernaderos familiares de menor costo, que les permita a los agricultores mejorar su condición económica por medio de una producción más controlada y protegida.
Agriculture in El Salvador is an activity that is developed by applying traditional techniques with little degree of engineering and automation by farmers. with a certain degree of control. The installation costs of these automated systems represent a high investment for the majority of farmers who wish to enter into the industrialization of their crops and increase the productivity and quality of their crops in order to export their fruits. That is why the ITCA-FEPADE Specialized School in Engineering, in conjunction with the National School of Agriculture ENA, is working on the design and assembly of a prototype of an automated system for lower-cost family greenhouses, which allow farmers improve their economic condition through a more controlled and protected production.
Subject(s)
Automation/instrumentation , Greenhouses , Crops, Agricultural , Agriculture , Science, Technology and Society , Industrial Development , Automatic Control of Processes , Farmers , Food SupplyABSTRACT
As perdas de nitrogênio (N) através de emissões gasosas de amônia (NH3) e óxido nitroso (N2O) após a aplicação de dejetos líquidos de suínos (DLS) no solo é um assunto ainda pouco estudado no Brasil, sobretudo em plantio direto. Diante disso, o objetivo desse trabalho foi avaliar, em condições de campo, a volatilização de NH3 e a emissão de N2O após a aplicação de DLS no milho, com e sem a presença de palha de aveia preta na superfície do solo. Os tratamentos avaliados para medir a emissão de N2O, durante 90 dias, foram: T1 - Solo (testemunha); T2 - Solo + DLS; T3 - Solo + Palha; T4 - Solo + Palha + DLS. Já a volatilização de NH3 foi quantificada durante 12 dias, somente nos três últimos tratamentos. Os DLS, na dose de 60m³ ha-1, foram aplicados ao solo, antecedendo a semeadura do milho, em delineamento experimental de blocos ao acaso, com três repetições. A presença da palha na superfície do solo reduziu as perdas de NH3 em 34%, porém potencializou as emissões de N2O após a aplicação dos DLS, as quais aumentaram em 167%. Os maiores fluxos de N2O ocorreram durante os primeiros 40 dias após a aplicação dos DLS sempre após a ocorrência de chuvas e/ou irrigações.
The nitrogen (N) losses through gaseous emissions of ammonia (NH3) and nitrous oxide (N2O) after pig slurry (PS) application in soil is a subject still little studied in Brazil, especially under no-till conditions. Therefore, the objective of this study was to evaluate, under field conditions, the NH3 volatilization and the N2O emission after PS application in corn, with and without surface oat straw. The treatments for measuring N2O emissions, during 90 days, were: T1-unamended soil (control), T2 - Soil + PS, T3 - Soil + oat straw and T4 - Soil + PS + oat straw. The NH3 volatilization was quantified only in the last three treatments. PS, at the dose 60m³ ha-1, was applied prior the sowing of corn, in a randomized design, with three replications. Oat straw on the soil surface reduced NH3 volatilization by 34%, but enhanced N2O emission by 167%. The higher N2O fluxes occurred during the first 40 days after PS addition, always after rain and/or irrigation events.
ABSTRACT
The nitrogen (N) losses through gaseous emissions of ammonia (NH3) and nitrous oxide (N2O) after pig slurry (PS) application in soil is a subject still little studied in Brazil, especially under no-till conditions. Therefore, the objective of this study was to evaluate, under field conditions, the NH3 volatilization and the N2O emission after PS application in corn, with and without surface oat straw. The treatments for measuring N2O emissions, during 90 days, were: T1-unamended soil (control), T2 - Soil + PS, T3 - Soil + oat straw and T4 - Soil + PS + oat straw. The NH3 volatilization was quantified only in the last three treatments. PS, at the dose 60m³ ha-1, was applied prior the sowing of corn, in a randomized design, with three replications. Oat straw on the soil surface reduced NH3 volatilization by 34%, but enhanced N2O emission by 167%. The higher N2O fluxes occurred during the first 40 days after PS addition, always after rain and/or irrigation events.
As perdas de nitrogênio (N) através de emissões gasosas de amônia (NH3) e óxido nitroso (N2O) após a aplicação de dejetos líquidos de suínos (DLS) no solo é um assunto ainda pouco estudado no Brasil, sobretudo em plantio direto. Diante disso, o objetivo desse trabalho foi avaliar, em condições de campo, a volatilização de NH3 e a emissão de N2O após a aplicação de DLS no milho, com e sem a presença de palha de aveia preta na superfície do solo. Os tratamentos avaliados para medir a emissão de N2O, durante 90 dias, foram: T1 - Solo (testemunha); T2 - Solo + DLS; T3 - Solo + Palha; T4 - Solo + Palha + DLS. Já a volatilização de NH3 foi quantificada durante 12 dias, somente nos três últimos tratamentos. Os DLS, na dose de 60m³ ha-1, foram aplicados ao solo, antecedendo a semeadura do milho, em delineamento experimental de blocos ao acaso, com três repetições. A presença da palha na superfície do solo reduziu as perdas de NH3 em 34%, porém potencializou as emissões de N2O após a aplicação dos DLS, as quais aumentaram em 167%. Os maiores fluxos de N2O ocorreram durante os primeiros 40 dias após a aplicação dos DLS sempre após a ocorrência de chuvas e/ou irrigações.
ABSTRACT
The nitrogen (N) losses through gaseous emissions of ammonia (NH3) and nitrous oxide (N2O) after pig slurry (PS) application in soil is a subject still little studied in Brazil, especially under no-till conditions. Therefore, the objective of this study was to evaluate, under field conditions, the NH3 volatilization and the N2O emission after PS application in corn, with and without surface oat straw. The treatments for measuring N2O emissions, during 90 days, were: T1-unamended soil (control), T2 - Soil + PS, T3 - Soil + oat straw and T4 - Soil + PS + oat straw. The NH3 volatilization was quantified only in the last three treatments. PS, at the dose 60m³ ha-1, was applied prior the sowing of corn, in a randomized design, with three replications. Oat straw on the soil surface reduced NH3 volatilization by 34%, but enhanced N2O emission by 167%. The higher N2O fluxes occurred during the first 40 days after PS addition, always after rain and/or irrigation events.
As perdas de nitrogênio (N) através de emissões gasosas de amônia (NH3) e óxido nitroso (N2O) após a aplicação de dejetos líquidos de suínos (DLS) no solo é um assunto ainda pouco estudado no Brasil, sobretudo em plantio direto. Diante disso, o objetivo desse trabalho foi avaliar, em condições de campo, a volatilização de NH3 e a emissão de N2O após a aplicação de DLS no milho, com e sem a presença de palha de aveia preta na superfície do solo. Os tratamentos avaliados para medir a emissão de N2O, durante 90 dias, foram: T1 - Solo (testemunha); T2 - Solo + DLS; T3 - Solo + Palha; T4 - Solo + Palha + DLS. Já a volatilização de NH3 foi quantificada durante 12 dias, somente nos três últimos tratamentos. Os DLS, na dose de 60m³ ha-1, foram aplicados ao solo, antecedendo a semeadura do milho, em delineamento experimental de blocos ao acaso, com três repetições. A presença da palha na superfície do solo reduziu as perdas de NH3 em 34%, porém potencializou as emissões de N2O após a aplicação dos DLS, as quais aumentaram em 167%. Os maiores fluxos de N2O ocorreram durante os primeiros 40 dias após a aplicação dos DLS sempre após a ocorrência de chuvas e/ou irrigações.
ABSTRACT
Realizaram-se experimentos na Faculdade de Engenharia Agrícola na Universidade Estadual de Campinas, utilizando quatro cultivares de morangueiro [Fragaria x ananassa (Weston) Duchesne ex Rozier], quatro sistemas de produção hidropônica (canal de 100mm, canal de 150mm, canal de 150mm, com vaso contendo fibra de coco e tubo vertical contendo casca de arroz carbonizada) e três ambientes protegidos (casa-de-vegetação sem resfriamento evaporativo do ar e sem injeção aérea de CO2, casa-de-vegetação com injeção aérea de CO2 e sem resfriamento evaporativo do ar e casa-de-vegetação com injeção aérea de CO2 e resfriamento evaporativo do ar). Foram avaliados os parâmetros foliares massa fresca foliar (MFF) e massa seca foliar (MSF) em gramas e área foliar (AF) em mm², correlacionando à biomassa da planta. O melhor sistema foi o de canais de 150mm com vaso contendo fibra de coco. O melhor ambiente foi o de resfriamento evaporativo do ar e injeção aérea de CO2.
Analyses were made in the experimental field of the Agricultural Engineering College at State University of Campinas (Unicamp). Four varieties of strawberry [Fragaria x ananassa (Weston) Duchesne ex Rozier] were tested in four hydroponics production systems (100mm and 150mm channels and 150mm channel with a vase containing coconut fiber and a vertical pipe containing carbonized rice rusk). Three greenhouses were tested: i) a greenhouse without air evaporative cooling nor CO2 aerial injection, ii) a greenhouse with CO2 aerial injection and without air evaporative cooling and iii) a greenhouse with CO2 aerial injection and air evaporative cooling. It was analyzed the leaf fresh (MFF) and dry mass in gram (MSF) and the leaf area in mm² (AF). The best hydroponics system was 150mm channel with a vase containing coconut fiber. The best environment condition was the one with air evaporative cooling and aerial injection of CO2.