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Protected cultivation of horticultural crops has emerged as a crucial technique in modern agriculture, offering numerous benefits such as increased yield, enhanced quality, and protection against adverse climatic conditions and pests. This comprehensive review aims to present the current status of protected cultivation practices and explore its future prospects in horticulture. The review begins by discussing the various types of protected cultivation structures, including greenhouses, high tunnels, and shade houses, along with their advantages and limitations. It then highlights the significance of protected cultivation in addressing global food security challenges by ensuring year-round crop production and reducing dependence on seasonal variations. The review further explores the impact of protected cultivation techniques on the growth and development of horticultural crops, including improved crop morphogenesis, precipitation management, and the optimization of environmental factors such as temperature, humidity, and carbon dioxide levels. Furthermore, the utilization of advanced technologies like hydroponics, aeroponics, and vertical farming within protected cultivation systems is examined, with an emphasis on their potential for maximizing crop productivity while minimizing resource consumption. Moreover, the paper delves into the challenges and constraints faced in implementing protected cultivation, including cost considerations, energy requirements, and the use of synthetic inputs. It discusses sustainable and environmentally friendly approaches, such as utilizing renewable energy sources and adopting organic farming practices, to mitigate these challenges and promote ecological balance. Lastly, the review discusses some future prospects and trends in protected cultivation, including the integration of precision agriculture techniques, the use of artificial intelligence, and the adoption of smart farming technologies. These advancements have the potential to further optimize resource utilization, improve automation, and enhance crop monitoring and management, ultimately leading to greater yield and quality improvements in horticultural crop production.
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Hydroponics, the science of soilless agriculture, has emerged as a pivotal paradigm in modern cultivation practices, addressing myriad challenges of traditional farming and offering avenues for high-efficiency, sustainable food production. This review delves into the anticipated future directions of hydroponics, capturing its interdisciplinary evolution. Central to this trajectory is the integration of Artificial Intelligence (AI) and machine learning, aiming to augment precision in every facet of hydroponic cultivation, from nutrient balance to disease prediction. Complementing technological advancements is the burgeoning realm of genomics, poised to craft crop varieties intrinsically optimized for hydroponic conditions, promising both enhanced yields and improved nutritional profiles. Sustainability remains an unwavering focus, with innovative methodologies underscoring recycling and resource optimization, ensuring minimal waste and maximal output. The synergistic amalgamation of hydroponics with other agricultural models, notably aquaponics, paints a picture of integrated, multi-tiered ecosystems that not only boost productivity but also bolster ecological resilience. Such integrations herald a future where farming transcends singular methodologies, evolving into harmonized systems that capitalize on the strengths of individual disciplines. In essence, the horizon of hydroponics is not one of mere technical advancement but represents a holistic evolution, seamlessly melding technology, biology, and ecology. This review aims to provide a comprehensive overview of these trajectories, offering insights into the potentialities and promises that the future of hydroponics holds.
الملخص
Soilless culture, a modern greenhouse cultivation technology, has rapidly developed in the past 30-40 years and offers a closed-loop system with several benefits, including the recycling of 85-90 percent of irrigation water. As the world population continues to grow at a rate of over 1%, the reduction in land availability per capita for soil-based agriculture has become a major problem, particularly in countries like India with a high population density. Soilless farming offers a viable alternative for growing high-quality vegetables, fruits, and flowers year-round on a variety of substrates, requiring limited space. This approach also aims to eradicate greenhouse soil-related problems such as soil-borne infections, poor soil fertility, and salinity. With several advantages over traditional soil crops, including shorter growth times, year-round production, and fewer diseases and pests, soilless farming comprises various methods such as hydroponics, aeroponics, and aquaponics. The technique has the potential to improve people's lives and boost economic growth by encouraging innovative businesses to engage in agriculture. Therefore, soilless farming has gained traction as an innovative solution to address land scarcity issues while producing high-quality crops sustainably.
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Japanese mint (Mentha arvensis L.), is a member of the family Lamiaceae which is a perennial herbaceous aromatic plant but cultivated as an annual for culinary purpose as leafy vegetable and as natural menthol extraction. It is a major source of raw material for flavours and fragrance industry. Urban regions are losing cultivable land every day and it has become extremely difficult to produce fresh vegetables of high quality. By using vertical structures, vertical space can be utilized while increasing the quality of vegetable production. This experiment was conducted at Department of Vegetable Science, Horticultural College & Research Institute, Periyakulam during 2022-2023 to evaluate the performance of nine varieties viz., Kosi (V1), CIM-Kranti (V2), Himalaya (V3), Kalka (V4), MAS-1 (V5), Saksham (V6), Gomti (V7), Seelayampatti local (V8) and Bangalore hybrid (V9) under open field (G1) and vertical A-frame structure (G2) condition. One vertical A-frame structure is used in this study which contain 516 holes for planting. Among the nine varieties, Saksham (V6) showed increase in growth parameters in both conditions. The observations on growth parameters were recorded for plant height(cm), number of leaves, root length(cm), fresh weight of roots(g) and dry weight of roots(g). Saksham variety in vertical A-frame structure yielded maximum plant height (53.05 cm), number of leaves (112.73), root length (39.92 cm), fresh weight of roots (3.204g) and dry weight of roots (0.874g) followed by the variety CIM-Kranti in vertical A-frame structure (48.83cm, 77.61, 37.75cm, 2.582g and 0.648g). As a result, the interactive action of G2V6 showed maximum growth due to the availability of nutrients in the root system and timely application of water and nutrient helped in better plant parameters.
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The present investigation was carried out to find out nutrient management for growth, yield attributes, yield and quality attributes of strawberry (Fragaria ananassa) under vertical hydroponics tower system in Prayagraj. The experiment was conducted in a Complete Randomized Design (CRD) with nine treatments and three replications during November-March (2022-23) at Experimental Farm of Department of Horticulture, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, Uttar Pradesh, India. The data were recorded from four randomly selected plants from each replication of the treatments for 14 characters. The 9 treatments comprising of different doses in combination of macro nutrients N:P:K , micro nutrients Zn: B: Fe and organic fertilizer sea weed extract were given in three different stages of the crop i.e., seedling stage, vegetative growth stage and reproductive stage . Naphthalene Acetic Acid (NAA) as plant growth regulator (PGR) was applied in reproductive stage of the crop at the time of flowering for better fruit set. Aqueous solution of nutrients applied at seedling stage followed by vegetative growth stage and reproductive stage , treatment T7 comprising of N- 7.5, 8.5 and 9.5 g/10 litres of water at all three stages, respectively, P- 4.0, 5.0 and 6.0 g/10 litres of water at all three stages, respectively, K- 2.5, 3.5 and 4.5 g/10 litres of water, at all three stages, respectively, Zn- 0.25,0.35 and 0.45g/10 l of water at all three stages, respectively , B – 0.35, 0.45 and 0.55g/10 litres of water at all three stages, respectively, Fe- 0.65,0.75 and 0.85 mg/10 litres of water at all three stages, respectively and organic fertilizer (see weed extract) @ 8 and 10 ml/ 10 litres of water at seedling and vegetative stages and NAA @ 300 ppm was applied at reproductive stage for fruit settings was the best and recorded maximum plant height (18.42cm),plant spread area (18.58cm2), number of leaves per plant (8.21), root length (16.03cm), leaf area (47.75cm2), number of flowers per plant (14.47), number of fruits per plant (14), yield per treatment (1.451kg) with B: C ratio (1:2.72) and quality of the strawberry as TSS (9.330brix), titratable acidity (1.33%) and ascorbic acid (60.45 mg/100g) followed by T6 and T5.
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Aeroponics is a technique of cultivating or culturing plants in the absence of soil or a consolidated medium. It is that the plant is just grown in the moist air or mist medium to transmit the nutrients required by plants. To be honest I call is as a tool for research and commercial production activities because when we talk about practical application there will be many aspects for consideration such as orientation, site selection, skilled technicians, economic costs weather, and climate mainly the traditional farmers. All these operations cannot be handled by a small and simple farmer with ease, this is the reason for the current trend of aeroponics which is new to people and being practically utilized only for research, aesthetics, and for commercial purposes. Aeroponics need special structures which can maintain a controlled environment for the fulfillment of all the basic and required conditions by the plants being studied or grown inside. It requires proper equipment like aeroponic growth chambers, phytosanitary conditions, cooling mechanization, etc. aeroponics has many uses as they can be grown in less space, are useful for seed production, and used in parks and restaurants for ambiance, can grow crops extraterrestrial, pollution free but can’t be termed as organic as it is grown without the soil but yes, we can say it organically as there is no use of chemical fertilizer or pesticide n herbicides. There is a big debate going on this outside but this is just what my perspective is. Further development should come up for the sustainability of aeroponics as a medium for agricultural practice.
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Green tea has been reported to result in improvements in a range of health parameters. However, most research has only documented the effects of green tea brewed from leaves or leaf extracts. In addition to the leaves, the roots of tea plants also possess unique properties because of their requirements for growth, which may enable them to have useful physiological effects. We used a hydroponic system to grow the plants and explored the physiological effects of the roots, which biosynthesize one of the rarest functional amino acids, theanine (?-ethylamide-L-glutamic acid). The level of theanine was much higher in the roots than in the leaves, and the roots also differed in other aspects of their chemical composition. We evaluated the effects of tea-root extract on the cognitive function and emotions of aged rats. Our results show that, in the object recognition test, aged rats drinking tea-root extract tended to show improved cognitive function and were more relaxed than the control group, which drank tap water. Furthermore, using a mouse model of human aging, we found that the average life span of mice that consumed the root extract was significantly increased. We suggest that tea roots contain unique components that may improve impaired physiological functions, and we therefore propose tea-root extract as a novel nutraceutical.
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In the tropical region, savannas and seasonal forests, both highly diverse biomes, occur side by side, under the same climate. If so, that mosaic cannot be explained solely by climatic variables, but also by fire, water availability and soil status. Nutrient availability in the soil, especially nitrogen and phosphorus, has been postulated to explain the abrupt transitions between savannas and seasonal forests in tropical regions. Plants from these two biomes may present different nutritional strategies to cope with nitrogen and phosphorus limitation. We used two congeneric pairs of trees each pair with a species from the savanna and another from the neighboring seasonal forest to test whether savanna and forest species presented different nutritional strategies during their early development. We cultivated 56 individuals from each of these species in a hydroponics system with four treatments: (1) complete Hoagland solution, (2) Hoagland solution without nitrogen, (3) Hoagland solution without phosphorus, and (4) Hoagland solution without nitrogen and phosphorus. After 45 days, we harvested the plants and measured total biomass, root to shoot ratio, height, leaf area, and specific leaf area. Overall, savanna species were lighter, shorter, with smaller leaves, higher specific leaf areas, and higher root to shoot ratios when compared to the forest species. Nitrogen increased the performance of species from both biomes. Phosphorus improved the performance of the forest species and caused toxicity symptoms in the savanna species. Hence, savanna and forest species presented different demands and were partially distinct already as seedlings concerning their nutritional strategies.
Em regiões tropicais, savanas e florestas estacionais, biomas altamente diversos, ocorrem lado a lado, sob o mesmo clima. Sendo assim, esse mosaico não pode ser explicado somente por variáveis climáticas, devendo ser considerada a frequência e intensidade de incêndios, disponibilidade de água e status do solo. A disponibilidade de nutrientes no solo, especialmente nitrogênio e fósforo, tem sido postulada para explicar as transições abruptas entre savanas e florestas estacionais nos trópicos. Espécies vegetais desses dois biomas podem apresentar estratégias nutricionais diferentes para lidar com a limitação tanto de nitrogênio como de fósforo. Utilizamos dois pares de árvores congenéricas cada par com uma espécie típica de savana e outra de floresta estacional vizinha para testar se as espécies da savana e da floresta apresentaram estratégias nutricionais diferentes durante seu desenvolvimento inicial. Cultivamos 56 indivíduos de cada uma dessas espécies em um sistema hidropônico com quatro tratamentos: (1) solução Hoagland completa, (2) solução Hoagland sem nitrogênio, (3) solução Hoagland sem fósforo e (4) solução Hoagland sem nitrogênio e fósforo. Após 45 dias, colhemos as plantas e medimos a biomassa total, a relação raiz / parte aérea, altura, área foliar e área foliar específica. No geral, as espécies savânicas foram mais leves, menores em altura, área foliar e área foliar específica e apresentaram maiores razões entre biomassa radicular por biomassa aérea quando comparadas às espécies florestais. A oferta de nitrogênio aumentou o desempenho das espécies de ambos biomas. O fósforo melhorou o desempenho das espécies florestais e causou sintomas de toxicidade nas espécies savânicas. Concluímos que, já como mudas, espécies congenéricas de savana e floresta apresentaram demandas distintas e foram parcialmente diferentes em relação a suas estratégias nutricionais.
الموضوعات
Soil Characteristics/analysis , Rainforest , Phosphorus/administration & dosage , Hydroponics , Nitrogen/administration & dosage , Grassland , Soil Chemistry/analysis , Fabaceae/growth & development , Fabaceae/drug effects , Solanum/growth & development , Solanum/drug effectsالملخص
Abstract In the tropical region, savannas and seasonal forests, both highly diverse biomes, occur side by side, under the same climate. If so, that mosaic cannot be explained solely by climatic variables, but also by fire, water availability and soil status. Nutrient availability in the soil, especially nitrogen and phosphorus, has been postulated to explain the abrupt transitions between savannas and seasonal forests in tropical regions. Plants from these two biomes may present different nutritional strategies to cope with nitrogen and phosphorus limitation. We used two congeneric pairs of trees each pair with a species from the savanna and another from the neighboring seasonal forest to test whether savanna and forest species presented different nutritional strategies during their early development. We cultivated 56 individuals from each of these species in a hydroponics system with four treatments: (1) complete Hoagland solution, (2) Hoagland solution without nitrogen, (3) Hoagland solution without phosphorus, and (4) Hoagland solution without nitrogen and phosphorus. After 45 days, we harvested the plants and measured total biomass, root to shoot ratio, height, leaf area, and specific leaf area. Overall, savanna species were lighter, shorter, with smaller leaves, higher specific leaf areas, and higher root to shoot ratios when compared to the forest species. Nitrogen increased the performance of species from both biomes. Phosphorus improved the performance of the forest species and caused toxicity symptoms in the savanna species. Hence, savanna and forest species presented different demands and were partially distinct already as seedlings concerning their nutritional strategies.
Resumo Em regiões tropicais, savanas e florestas estacionais, biomas altamente diversos, ocorrem lado a lado, sob o mesmo clima. Sendo assim, esse mosaico não pode ser explicado somente por variáveis climáticas, devendo ser considerada a frequência e intensidade de incêndios, disponibilidade de água e status do solo. A disponibilidade de nutrientes no solo, especialmente nitrogênio e fósforo, tem sido postulada para explicar as transições abruptas entre savanas e florestas estacionais nos trópicos. Espécies vegetais desses dois biomas podem apresentar estratégias nutricionais diferentes para lidar com a limitação tanto de nitrogênio como de fósforo. Utilizamos dois pares de árvores congenéricas cada par com uma espécie típica de savana e outra de floresta estacional vizinha para testar se as espécies da savana e da floresta apresentaram estratégias nutricionais diferentes durante seu desenvolvimento inicial. Cultivamos 56 indivíduos de cada uma dessas espécies em um sistema hidropônico com quatro tratamentos: (1) solução Hoagland completa, (2) solução Hoagland sem nitrogênio, (3) solução Hoagland sem fósforo e (4) solução Hoagland sem nitrogênio e fósforo. Após 45 dias, colhemos as plantas e medimos a biomassa total, a relação raiz / parte aérea, altura, área foliar e área foliar específica. No geral, as espécies savânicas foram mais leves, menores em altura, área foliar e área foliar específica e apresentaram maiores razões entre biomassa radicular por biomassa aérea quando comparadas às espécies florestais. A oferta de nitrogênio aumentou o desempenho das espécies de ambos biomas. O fósforo melhorou o desempenho das espécies florestais e causou sintomas de toxicidade nas espécies savânicas. Concluímos que, já como mudas, espécies congenéricas de savana e floresta apresentaram demandas distintas e foram parcialmente diferentes em relação a suas estratégias nutricionais.
الملخص
In the tropical region, savannas and seasonal forests, both highly diverse biomes, occur side by side, under the same climate. If so, that mosaic cannot be explained solely by climatic variables, but also by fire, water availability and soil status. Nutrient availability in the soil, especially nitrogen and phosphorus, has been postulated to explain the abrupt transitions between savannas and seasonal forests in tropical regions. Plants from these two biomes may present different nutritional strategies to cope with nitrogen and phosphorus limitation. We used two congeneric pairs of trees - each pair with a species from the savanna and another from the neighboring seasonal forest - to test whether savanna and forest species presented different nutritional strategies during their early development. We cultivated 56 individuals from each of these species in a hydroponics system with four treatments: (1) complete Hoagland solution, (2) Hoagland solution without nitrogen, (3) Hoagland solution without phosphorus, and (4) Hoagland solution without nitrogen and phosphorus. After 45 days, we harvested the plants and measured total biomass, root to shoot ratio, height, leaf area, and specific leaf area. Overall, savanna species were lighter, shorter, with smaller leaves, higher specific leaf areas, and higher root to shoot ratios when compared to the forest species. Nitrogen increased the performance of species from both biomes. Phosphorus improved the performance of the forest species and caused toxicity symptoms in the savanna species. Hence, savanna and forest species presented different demands and were partially distinct already as seedlings concerning their nutritional strategies.
Em regiões tropicais, savanas e florestas estacionais, biomas altamente diversos, ocorrem lado a lado, sob o mesmo clima. Sendo assim, esse mosaico não pode ser explicado somente por variáveis climáticas, devendo ser considerada a frequência e intensidade de incêndios, disponibilidade de água e status do solo. A disponibilidade de nutrientes no solo, especialmente nitrogênio e fósforo, tem sido postulada para explicar as transições abruptas entre savanas e florestas estacionais nos trópicos. Espécies vegetais desses dois biomas podem apresentar estratégias nutricionais diferentes para lidar com a limitação tanto de nitrogênio como de fósforo. Utilizamos dois pares de árvores congenéricas - cada par com uma espécie típica de savana e outra de floresta estacional vizinha - para testar se as espécies da savana e da floresta apresentaram estratégias nutricionais diferentes durante seu desenvolvimento inicial. Cultivamos 56 indivíduos de cada uma dessas espécies em um sistema hidropônico com quatro tratamentos: (1) solução Hoagland completa, (2) solução Hoagland sem nitrogênio, (3) solução Hoagland sem fósforo e (4) solução Hoagland sem nitrogênio e fósforo. Após 45 dias, colhemos as plantas e medimos a biomassa total, a relação raiz / parte aérea, altura, área foliar e área foliar específica. No geral, as espécies savânicas foram mais leves, menores em altura, área foliar e área foliar específica e apresentaram maiores razões entre biomassa radicular por biomassa aérea quando comparadas às espécies florestais. A oferta de nitrogênio aumentou o desempenho das espécies de ambos biomas. O fósforo melhorou o desempenho das espécies florestais e causou sintomas de toxicidade nas espécies savânicas. Concluímos que, já como mudas, espécies congenéricas de savana e floresta apresentaram demandas distintas e foram parcialmente diferentes em relação a suas estratégias nutricionais.
الموضوعات
Humans , Grassland , Nitrogen , Phosphorus , Soil , Trees , Tropical Climate , Forests , Plant Leavesالملخص
Objetivo Analisar e comparar a presença de coliformes totais e fecais em hortaliças de cultivos convencional, hidropônico e orgânico. Métodos A presença de coliformes totais e fecais foi analisada em amostras de alface, da variedade crespa (Lactuca sativa var. cripa), a partir do seu enriquecimento com água peptonada 0,1% para inoculá-las em diluições de 10-1, 10-2 e 10-3 em Petrifilm EC (3M Company). Após a incubação a 37°C por 24 horas, as colônias foram contadas e o resultado foi expresso como UFC.g-1 de coliformes totais e UFC.g-1 de Escherichia coli. Resultados Foram analisadas seis amostras de alface, sendo duas de cultivo tradicional, três de cultivo orgânico e uma de cultivo hidropônico. Somente uma delas se apresentou própria para consumo, uma vez que o número de coliformes totais não ultrapassou o limite exigido pela vigilância sanitária. Além disso, uma das amostras de alface orgânica estava contaminada com coliformes fecais. Conclusão O presente estudo evidenciou que a maioria das amostras de alface orgânica apresentou um número maior de coliformes totais quando comparado aos outros tipos de cultivo, e uma delas estava contaminada com E. coli. Além disso, a maioria mostrou-se em desacordo com o padrão microbiológico estabelecido pela legislação brasileira
Objective To analyze and compare the presence of total and fecal coliforms in conventional, hydroponic and organic crops. Methods The presence of total and fecal coliforms was analyzed in lettuce samples from the crespa variety (Lactuca sativa var. Cripa) from their enrichment with 0.1% peptone water to inoculate them in 10-1, 10-2 and 10-3 in Petrifilm EC (3M Company). After incubation at 37 °C for 24 hours, the colonies were counted and the result was expressed as UFC.g-1 of total coliforms and UFC.g-1 of Escherichia coli. Results Six lettuce samples were analyzed, two of them being traditional, three organic and one hydroponic. Only one of them presented itself for consumption, since the number of total coliforms did not exceed the limit required by sanitary surveillance. In addition, one of the organic lettuce samples was contaminated with fecal coliforms. Conclusion The present study showed that the majority of the organic lettuce samples presented a higher number of total coliforms when compared to the other types of culture, and one of them was contaminated with E. coli. In addition, the majority were in disagreement with the microbiological standard established by Brazilian legislation
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Lettuce is the most important leafy vegetable in Brazil. Hydroponic lettuce cultivation has grown due to the viability of harvesting throughout the year. In this context, this study aimed to evaluate the agronomic characteristics, color, and preference of curly lettuce in the NFT hydroponic system. Six lineages (6601-1A, 6601-2L, 7016-6A, 7119-1B, 7223-1A, and 7224-4A) and two commercial cultivars (Brida and Vanda) of lettuce were used, in a completely randomized blocks design with four replications. Shoot length, root length, stem length, number of leaves, stem diameter, plant diameter, shoot fresh mass, root fresh mass, chlorophyll content, instrumental color, and sensory characteristics were evaluated. As for agronomic evaluation, the bolting of 6601-2L lettuce was relevant in different attributes. The Vanda lettuce and the lineage 7016-6A presented best performances for shoot fresh mass (399.44 and 378.63 g, respectively), while the lineages 7119-1B and 6601-2L present the worst performance (279.50 and 273.13 g, respectively). There was variation in chlorophyll content and luminosity, however, the evaluators did not notice differences between lettuces for brightness or green color, as well as for crunchy texture. Lettuces 6601-2L, 7224-4A, 6601-1A, Brida, 7223-1A, and 7119-1B were preferred. The variation among plants may be due to different situations, such as harvesting times and bolting, and a direct relationship between agronomic properties and preference among lettuces has not been established yet.
الموضوعات
Lactuca , Hydroponics/methodsالملخص
Objective:To establish a method for the determination of artemisinin and arteannuin B in different <italic>Artemisia annua</italic> germplasms, compare the differences of the two compounds among different <italic>A. annua</italic> germplasm under the condition of hydroponic homogenization and explore the key factors affecting contents of principal compounds in different<italic> A. annua</italic> germplasms. Method:Seedlings from different <italic>A. annua</italic> germplasms were arranged randomly and fed in a hydroponic cultivation system. Contents of artemisinin and arteannuin B were detected by ultra performance liquid chromatography tandem mass spectrometry (UPLC-MS/MS) with multi-reaction monitoring mode and ACQUITY UPLC<sup>®</sup> BEH C<sub>18</sub> column (2.1 mm×100 mm, 1.7 μm), mobile phase was water-acetonitrile (95∶5, containing 0.1% formic acid, A) and acetonitrile-water (95∶5, containing 0.1% formic acid, B) for gradient elution (0-3.5 min, 25%-1%A; 3.5-3.6 min, 1%-25%A; 3.6-5.0 min, 25%A), the flow rate was set at 0.4 mL·min<sup>-1</sup>. The content differences of artemisinin and arteannuin B in different provenances of <italic>A. annua</italic> were detected and analyzed statistically. Result:The established method had high sensitivity and good separation. A significant difference of artemisinin and arteannuin B contents was observed in different germplasms under the same culture conditions, that is, under the constant temperature of 25 ℃ in hydroponics. The provenance with higher artemisinin content was Yunnan, and the content was 3 810.597 μg·g<sup>-1</sup>. The highest strain of arteannuin B was Shanxi provenance germplasm with the content of 1 691.747 μg·g<sup>-1</sup>. According to the content of artemisinin, the provenances were arranged as follows:Yunnan, Hainan, Hubei, Guangxi, Zhejiang, Shanxi, Beijing, Shandong, Heilongjiang, and Gansu province germplasms. Correlation analysis showed that there was a significant negative correlation between artemisinin content and latitude of <italic>A. annua</italic>, but there was no significant correlation between contents of artemisinin and arteannuin B and longitude. Conclusion:The contents of artemisinin and arteannuin B among different <italic>A. annua</italic> germplasms were significantly different under the same culture environment, and the dominant factors affecting biosynthesis and accumulation of artemisinin and arteannuin B in <italic>A. annua</italic> may be the genetic background, suggesting that germplasm improvement is the key factor to improve the medicinal quality of <italic>A. annua</italic> in subsequent cultivation.
الملخص
Abstract Nostoc is a genus of filamentous cyanobacteria with biotechnological applications in human nutrition, biomedicine, biofertilization and commercial production of biofuels. However, the low growth rate in liquid medium due to its periphytic nature and its tendency to form biofilms, limits its large-scale production. Therefore, the aim of this study was to evaluate the biomass production of Nostoc muscorum in a modified hydroponic system. Cultures of N. muscorum were made by triplicate, in a hydroponic system under semicontrolled conditions of temperature (29 ± 13 °C), light intensity (32 ± 54 µmol/m2/s) and photoperiod (12 hours), for a total of 23 days inside a greenhouse. Temperature, pH, conductivity and dry biomass production were monitored on alternating days. The results showed that the maximum dry biomass production was 0.2276 ± 0.0114 g/m2/day, and the average productivity was 0.4149 ± 0.0207 g/m2/day. The maximum biomass production of N. muscorum was achieved on day thirteen with 0.3185 ± 0.0159 g/m2/day. The correlation statistical analysis of environmental variables did not show significant differences; thus, temperature, pH and electrical conductivity did not affect the biomass production of N. muscorum. Consequently, the algal growth was influenced by the species physiology only. The support used in the hydroponic system allowed the adhesion and development of the algae mucilaginous layer without requiring drying periods as in conventional crops. The hydroponic system provided a continuous flow of nutrients hat could prevent the attack of opportunistic bacteria and fungi, generating a high growth rate of N. muscorum. The hydroponic system represents a viable alternative for the production of N. muscorum biomass under greenhouse conditions at large scale.
Resumen Nostoc es un género de cianobacterias filamentosas con aplicaciones biotecnológicas en nutrición humana, biomedicina, biofertilización y producción comercial de biocombustibles. Sin embargo, su baja tasa de crecimiento en medio líquido por su naturaleza perifítica y su tendencia a formar biofilms, limita su producción a gran escala. Por lo tanto, el objetivo de este estudio fue analizar la producción de biomasa de Nostoc muscorum en un sistema hidropónico modificado. Para ello, se realizaron cultivos de N. muscorum por triplicado, en un sistema hidropónico bajo condiciones semicontroladas de temperatura (29 ± 13°C), intensidad lumínica (32 ± 54 µmol/m2/s) y fotoperiodo (12 horas), durante 23 días en un invernadero. La temperatura, el pH, la conductividad eléctrica y la producción de biomasa seca, fueron monitoreados en días alternados. Los resultados arrojaron que la producción máxima de biomasa seca fue de 0.2276 ± 0.0114 g/m2/día, y la productividad promedio fue de 0.4149 ± 0.0207 g/m2/día. A su vez, la producción máxima de biomasa de N. muscorum se obtuvo el día trece con 0.3185 ± 0.0159 g/m2/día. El análisis estadístico de correlación de variables ambientales no arrojó diferencias significativas, por lo que la temperatura, el pH y la conductividad eléctrica no afectaron la producción de biomasa de N. muscorum. Consecuentemente, el crecimiento algal fue influenciado por la fisiología de la especie. El soporte empleado en el sistema hidropónico permitió la adherencia y el desarrollo de la capa mucilaginosa de la cianobacteria sin requerir períodos de desecación como en los cultivos convencionales. El sistema hidropónico proporcionó un flujo continuo de nutrientes que podría prevenir el ataque de bacterias y hongos oportunistas, generando una alta tasa de crecimiento. De este modo, este sistema hidropónico representa una alternativa viable para la producción de biomasa de N. muscorum en condiciones de invernadero a gran escala.
Resumo Nostoc é um gênero de cianobactérias filamentosas com aplicações biotecnológicas em nutrição humana, biomedicina, biofertilização e produção comercial de biocombustíveis. Entretanto, sua baixa taxa de crescimento em meio líquido, devido à sua natureza perifítica e sua tendência a formar biofilmes, limita sua produção em larga escala. Portanto, o objetivo deste estudo foi analisar a produção de biomassa de Nostoc muscorum num sistema hidropônico modificado. Para isso, foram realizadas culturas de N. muscorum em triplicata num sistema hidropônico sob temperatura (29 ± 13°C) e intensidade da luz (32 ± 54 µmol/m2 /s) semicontroladas com fotoperíodo de 12 horas durante 23 dias numa estufa. A temperatura, o pH, a condutividade elétrica e a biomassa seca foram monitorados em dias alternados. Os resultados mostraram que a produção máxima de biomassa seca foi de 0,2276 ± 0,0114 g/m2 /dia e a produtividade média foi de 0,4149 ± 0,0207 g/ m2 /dia. No entanto, a produção máxima de biomassa de N. muscorum foi obtida no dia treze com 0,3185 ± 0,0159 g/m / dia. A análise estatística da correlação de variáveis ambientais não mostrou nenhuma diferença significativa, de modo que a temperatura, o pH e a condutividade eléctrica não afetaram a produção de biomassa de N. muscorum e o crescimento foi influenciado pela fisiologia da espécie. O suporte utilizado permitiu a adesão e desenvolvimento da camada mucilaginosa das algas sem a necessidade de períodos de secagem como nas culturas convencionais. O sistema hidropônico proporcionou um fluxo contínuo de nutrientes que impede o ataque de bactérias e fungos oportunistas, gerando uma alta taxa de crescimento. Portanto, este sistema hidropônico representa uma alternativa viável para a produção de biomassa de N. muscorum em larga escala sob condições de estufa.
الملخص
Intoxication by dispersion of glyphosate droplets in coffee seedlings is common and, in addition to the problem of drift, there are reports of contamination of this herbicide to a nontarget plant via the rhizosphere. Hydroponics allows the comparison of the translocation of the glyphosate absorbed by the foliage or the roots and avoids the interaction with the soil, which could hamper the achievement of more accurate conclusions when it is absorbed by the root. Thus, the toxicity of glyphosate sublethal dosages in the initial growth of coffee plants in hydroponics was evaluated by applying four sublethal dosages in two different locations (solution and leaf). Fifty days after the application of the herbicide, the intoxication percentage and the growth of the coffee seedlings were evaluated. From the reduced dose of 115.2 g·ha-1 of glyphosate, height reductions, root length; number of leaves, dry mass of leaf, roots and total, leaf area, and leaf mass ratio were observed. The first two parameters were observed only in leaf application and the others via leaf and solution. The aerial partroot ratio system had an increase in herbicide sublethal dosages when applied to leaves and the ratio of leaf area and specific leaf area increased in both applications. Sublethal dosages of glyphosate applied to young coffee plants under hydroponic conditions impair their growth, and it is more accentuated with increasing doses and when the leaves, instead of the roots, absorb the herbicide.(AU)
Intoxicação por dispersão das gotas de glifosato em mudas de café são comuns, além do problema da deriva, há relatos da passagem desse herbicida para planta não alvo via rizosfera. A hidroponia possibilita comparar a translocação do glifosato absorvido pelas folhagens ou raízes e evita a interação do solo que poderia dificultar a obtenção de conclusões mais precisas quando absorvido pela raiz. Assim, a toxidade de subdoses de glifosato no crescimento inicial de plantas de café em hidroponia foi avaliada aplicando-se quatro subdoses em dois locais distintos (solução e folha). Cinquenta dias após a aplicação do herbicida, a porcentagem de intoxicação e o crescimento das mudas de café foram avaliados. A partir da subdose de 115,2 g·ha-1 de glifosato observaram-se reduções da altura; comprimento radicular; número de folhas; massa seca da folha, raiz, radicular e total; área foliar; razão de massa foliar, sendo os dois primeiros parâmetros observados somente na aplicação foliar e os demais via foliar e solução. A relação parte aérea/sistema radicular aumentaram com o incremento das subdoses do herbicida quando aplicado nas folhas e a razão de área foliar e área foliar específica aumentaram em ambas as vias de aplicação. Subdoses de glifosato aplicadas em plantas jovens de café, em condições hidropônicas, prejudicam o seu crescimento sendo mais acentuados com o aumento das doses e quando o herbicida é absorvido pelas folhas em relação à absorção radicular.(AU)
الموضوعات
Coffee , Hydroponics , Herbicides , Absorption , Environmental Pollution , Toxicity , Rhizosphereالملخص
Because of the food and industrial importance of tomato, it holds great significance, and is one of the most produced species using the hydroponic cultivation systems. The objective of this study was to evaluate the effects of different concentrations of nutrient solution on the production and quality of cherry tomatoes (Lycopersicon esculentum 'Samambaia') grown in a hydroponic system in protected conditions. The experiment was conducted in pots filled with coconut fiber substrate using a randomized complete block design with four replications and six plants per plot. Five concentrations of nutrients were evaluated (50, 75, 100, 125, and 150% of the standard nutrient solution); the solutions produced the following electrical conductivities: 1.8, 2.0, 2.6, 3.4, and 3.9 dS m-1, respectively. At 90 days after transplanting, the tomato fruits were harvested, at which time the production variables and post-harvest quality of mature fruits were determined. The best production and post-harvest quality indexes of cherry tomatoes ('Samambaia') were found when using 111% of the standard nutrient solution, corresponding to the concentrations of 9.44, 2.44, 2.22, 6.44, 4.11, 2.44, and 2.78 mmolc L-1, of NO3 - , NH4 + , P, K, Ca, Mg, and S, respectively; and 66.6, 55.5, 14.4, 1.89, 0.56, and 0.44 mmolc L -1, of Fe, B, Mn, Zn, Cu, and Mo, respectively. Nutrient solutions with electrical conductivity above 2.89 dS m-1 severely reduced the fruit yield of cherry tomatoes.
Devido à importância alimentar e industrial do tomateiro, a cultura destaca-se entre as hortaliças, sendo uma das espécies mais produzidas em sistema hidropônico de cultivo. Nosso objetivo foi avaliar os efeitos da aplicação de diferentes concentrações de solução nutritiva na produção e na qualidade dos frutos de tomate cereja (Licopersicon esculentum, cv. Samambaia) em sistema hidropônico sobre condição de ambiente protegido. O experimento foi conduzido em vasos preenchidos com substrato de fibra de coco utilizando o delineamento de blocos casualizados, com quatro repetições e seis plantas por parcela. Foram avaliadas cinco concentrações de nutrientes na solução nutritiva hidropônica (50, 75, 100, 125 e 150% da solução nutritiva padrão) que, após a diluição dos nutrientes em água de torneira, estas produziram as seguintes condutividades elétricas: 1.8, 2.0, 2.6, 3.4 e 3.9 dS m-1, respectivamente. Aos 90 dias após o transplantio, os frutos de tomate foram colhidos, ocasião em que se determinaram as variáveis de produção e qualidade póscolheita de frutos maduros. A análise dos resultados indicou que os melhores índices de produção e qualidade dos frutos de tomate cereja cultivado em sistema hidropônico foram encontrados nas concentrações de macronutrientes da solução nutritiva correspondente a 9,44; 2,44; 2,22; 6,44; 4,11; 2,44 e 2,78 mmolc L-1 de NO3 - , NH4 + , P, K, Ca, Mg e S, respectivamente, e 66,6; 55,5; 14,4; 1,89; 0,56 e 0,44 mmolc L-1, de Fe, B, Mn, Zn, Cu e Mo, respectivamente. As soluções nutritivas com condutividade elétricas acima de 2,89 dS m-1 reduziram severamente o rendimento de frutos de tomate cereja
الموضوعات
Solanum lycopersicum , Nutrients , Hydroponicsالملخص
A alface (Lactuca sativa L.) possui grande importância na alimentação humana, como fonte de vitaminas e sais minerais, além de possuir baixo valor calórico. Apesar do cultivo hidropônico estar em expansão no Brasil e ser bastante vantajoso, não há uma legislação específica dos nutrientes a serem utilizados para produção dessas hortaliças, levando ao risco da veiculação de contaminantes como o nitrato por meio da solução nutritiva. O objetivo do trabalho foi avaliar o teor de nitrato e as características físico-químicas de amostras de alface de duas espécies, cultivadas no sistema hidropônico e convencional. As amostras de alface foram coletadas semanalmente, em triplicata, no comércio local, por cinco semanas consecutivas, sendo analisados dois tipos de alface (crespa e/ou americana) produzidos pelo sistema convencional e hidropônico. Observou- se maior variação nos teores de cinzas e nitrato entre os sistemas de cultivo (hidropônico e convencional) e nos teores de vitamina C entre os tipos de alface (crespa e americana). Os maiores teores de nitrato foram encontrados nas amostras de alface hidropônica, com destaque para a cultivar Americana. Os teores de nitrato encontrados não excederam o limite máximo permitido pela legislação internacional.(AU)
الموضوعات
Humans , Lactuca/chemistry , Hydroponics , Nitrates/administration & dosage , Ascorbic Acid , Food Samples , Nutritive Valueالملخص
El objetivo del presente estudio fue evaluar el efecto de la irrigación con las levaduras Debaryomyces hansenii var. Fabry, Yarowia lipolytica YIBCS002, Yarowia lipolytica var. BCS y Candida pseudointermedia sobre el contenido nutricional final del forraje verde hidropónico de maíz (Zea mays L. ), al ser efectuada en diferentes etapas de crecimiento de aquel (fase semilla-plántula o fase plántula-planta 20 cm), o bien durante todo el cultivo. Todas las levaduras incrementaron el contenido de proteína cruda, lípidos, cenizas, humedad y energía bruta, independientemente de la etapa de crecimiento del forraje en las que fueron aplicadas. El porcentaje de electrólitos (Na, K, Cl, sulfatos, Ca y Mg) varió en función de la levadura aplicada; D. hansenii incrementó todos los electrólitos, excepto el P. Se concluye que la adición de levaduras del género Debaryomyces, Candida y Yarowia en la solución de riego de sistemas hidropónicos mejora el contenido de nutrientes del forraje verde. Esta práctica puede contribuir a la generación de cultivos de valor comercial en espacios limitados
The objective of this study was to evaluate the effect of irrigation with yeasts (Debaryomyces hansenii var. Fabry, Yarowia lipolytica YIBCS002, Yarowia lipolytica var. BCS and Candida pseudointermedia) on the final nutritional content of hydroponic green maize fodder (Zea Zea mays L.), applied at different fodder growth stages (1. seed-seedling stage, 2. seedling-plant 20 cm, 3. during all the culture). Irrespective of the fodder growth stages at which they were applied, all yeasts tested enhanced the content of raw protein, lipids, ash, moisture and energy. The percentage of electrolytes (Na, K, Cl, sulphates, Ca and Mg) showed different responses depending on the kind of yeast applied; D. hansenii exhibited the highest increment in all electrolytes, except for phosphorous. We conclude that the addition of yeasts belonging to the genera Debaryomyces, Candida and Yarowia to the irrigation solution of hydroponic systems enhances the nutrient content of green fodder. This kind of irrigation can be applied to generate high commercial value cultures in limited spaces.
الموضوعات
Yeast, Dried/analysis , Yeast, Dried/metabolism , Hydroponics/methods , Zea mays/drug effects , Zea mays/growth & developmentالملخص
Mentha piperita L. is an aromatic and medicinal species of the family Lamiaceae, known as mint or peppermint, and its leaves and branches produce essential oil rich in menthol. This study aimed to evaluate physiological indexes, macro- and micronutrients inthe shootsand essential oil of Mentha piperita L. grown in nutrient solution number 2 of Hoagland and Arnon (1950) with different N, P, K and Mg levels. Shoot length, dry mass of the different organs, total dry mass, leaf area, essential oil yield and composition, and macronutrient (N, P, K, Mg, Ca, S) and micronutrient (Mn, Cu, Fe, Zn) contents in the shoot were evaluated. Plants treated with 65%N/50%P/25%K/100%Mg had a tendency towards longer shoot, greaterroot and leaf blade dry masses, higher essential oil yield, higher menthol levels and lower menthone levels. The results showed that Mentha can be grown in nutrient solution by reducing 65% N, 50% P, 25% K and 100% Mg. This solution had better development compared to the other tested treatments. Therefore,we recommendMentha piperita L. to be grown with such nutrient levels.
Mentha piperita L., é uma espécie aromática e medicinal pertencente à família Lamiaceae, conhecida como menta ou hortelã-pimenta que produz em sua parte aérea óleo essencial rico em mentol. O objetivo do trabalho foi avaliar os índices fisiológicos, macro e micronutrientes na parte aérea e óleo essencial de Mentha piperita L. cultivada em solução nutritiva numero Hoagland e Arnon (1950) com variação dos níveis de N, P, K e Mg. Foram avaliados comprimento da parte aérea, massa seca dos diferentes órgãos e total, área foliar, rendimento e composição do óleo essencial, teor de macronutrientes (N, P, K, Mg, Ca e S), e de micronutrientes (Mn, Cu, Fe e Zn) na parte aérea. As plantas nutridas com 65% de N, 50% de P, 25% de K, e 100% de Mg, apresentaram tendência de maior comprimento de parte aérea e massa seca de raízes e de lâminas foliares; maior rendimento de óleo essencial e, em média, maiores teores de mentol e menores teores de mentona. O resultados permitem concluir que a Mentha pode ser cultivada em solução nutritiva reduzindo-se 65% de N, 50% de P, 25% de K e 100% de Mg. Esta solução apresentou melhor desenvolvimento em relação aos outros tratamentos. Recomenda-se, portanto, o cultivo da Mentha piperita L. com tais níveis de nutrientes.
الموضوعات
Mentha piperita/metabolism , Oils, Volatile/analysis , Hydroponics/instrumentation , Micronutrients/analysis , Lamiaceae/classification , Plant Components, Aerial/anatomy & histologyالملخص
A presença de alumínio (Al) reduz o rendimento em solos ácidos ou em áreas onde o subsolo possui pH abaixo de 5, pois limita o crescimento radicular e, consequentemente, a absorção de água e nutrientes. Genótipos elite de aveia (Avena sativa L.) não selecionados para a tolerância ao Al foram avaliados quanto a essa característica em solução nutritiva. Foi utilizada, como parâmetro de comparação da tolerância ao Al, a média de recrescimento radicular após a exposição ao Al. O recrescimento da raiz principal dos genótipos elite foi comparado com os controles UFRGS17, considerado tolerante e UFRGS930598-6, sensível. Foram avaliadas as linhagens UFRGS057005-1 e UFRGS057022-2, e as cultivares comerciais 'URSGuria', 'URSTorena', 'URSPenca', 'URSGuará', 'URS Charrua', 'URSTarimba', 'URSTaura', 'URSGuapa' e 'URS21'. A amplitude de recrescimento da raiz dentro de cada genótipo foi elevada, sendo a menor de 15mm e a maior de 44mm. As cultivares 'URSCharrua' e 'URSGuapa' demonstraram tolerância superior a 'UFRGS17'. URSTarimba, apesar da média similar a UFRGS17, mostrou distribuição de frequência mais positiva. URSTorena, UFRGS0570005-1 e URSPenca classificaram-se como intermediários, sendo inferiores a UFRGS17. Nenhum dos genótipos elite apresentou médias de recrescimento igual ou inferior às obtidas pelo controle sensível, UFRGS930598-6.
Oat genotypes were evaluated for aluminum (Al) tolerance in hydroponic solution. The ability of growing after being exposed to high Al (root regrowth) was used to evaluate the genotypes. The apical root regrowth for each genotype was compared to the controls: UFRGS17, Al tolerant, and UFRGS930598-6, Al sensitive. Two lines UFRGS057005-1 and UFRGS057022-2 and nine cultivars 'URSGuria', 'URSTorena', 'URSPenca', 'URSGuará', 'URSCharrua', 'URSTarimba', 'URSTaura', 'URSGuapa' and 'URS21' were evaluated. The root regrowth amplitude inside each genotype was high; the smallest one was 15mm and the largest one, 44mm. URSCharrua and URSGuapa showed higher tolerance than UFRGS17. Despite the similar mean to UFRGS17, URSTarimba regrowth frequency had a more positive skewness. URSTorena, UFRGS0570005-1 and URSPenca were classified as intermediate, being inferior to UFRGS17. None of the genotypes showed root regrowth equal or inferior to the sensitive control, UFRGS930598-6.