Impact of nitrogen and phosphorus fertilizers on Cry1Ac protein contents in transgenic cotton / Impacto de fertilizantes de nitrogênio e fósforo nos conteúdos de proteína Cry1Ac em algodão transgênico

Application of different fertilizers to check the efficiency of expression of Bt (Bacillus thuringiensis) gene in one of the leading commercialized crops (cotton) against Lepidopteran species is of great concern. The expression of Cry protein level can be controlled by the improvement of nutrients levels. Therefore, the myth of response of Cry toxin to different combinations of NP fertilizers was explored in three Bt cotton cultivars. Combinations include three levels of nitrogen and three levels of phosphorus fertilizers. Immunostrips and Cry gene(s) specific primer based PCR (Polymerase Chain Reaction) analysis were used for the presence of Bt gene that unveiled the presence of Cry1Ac gene only. Further, the ELISA (enzyme-linked immunosorbent assay) kit was used to quantify the expression of Cry1Ac protein. Under various NP fertilizers rates, the level of toxin protein exhibited highly significant differences. The highest toxin level mean was found to be 2.3740 and 2.1732 µg/g under the treatment of N150P75 kg ha-¹ combination while the lowest toxin level mean was found to be 0.9158 and 0.7641 µg/g at the N50P25 kg ha-¹ level at 80 and 120 DAS (Days After Sowing), respectively. It was concluded from the research that the usage of NP fertilizers has a positive relation with the expression of Cry1Ac toxin in Bt cotton. We recommend using the N150P50 kg ha-1 level as the most economical and practicable fertilizer instead of the standard dose N100P50 kg ha-¹ to get the desired level of Cry1Ac level for long lasting plant resistance (<1.5). The revised dose of fertilizer may help farmers to avoid the cross-resistance development in contradiction of insect pests.

A aplicação de diferentes fertilizantes para verificar a eficiência da expressão do gene Bt (Bacillus thuringiensis) em uma das principais culturas comercializadas (algodão) contra espécies de lepidópteros é uma grande preocupação. A expressão do nível de proteína Cry pode ser controlada pela melhoria dos níveis de nutrientes. Portanto, o mito da resposta da toxina Cry a diferentes combinações de fertilizantes NP foi explorado em três cultivares de algodão Bt. As combinações incluem três níveis de nitrogênio e três níveis de fertilizantes de fósforo. A análise de PCR (reação em cadeia da polimerase) específica para o gene (s) Immunostrips e Cry (s) foi usada para a presença do gene Bt que revelou a presença do gene Cry1Ac apenas. Além disso, o kit ELISA (ensaio de imunoabsorção enzimática) foi usado para quantificar a expressão da proteína Cry1Ac. Sob várias taxas de fertilizantes NP, o nível de proteína de toxina exibiu diferenças altamente significativas. A média do nível mais alto de toxina foi de 2,3740 e 2,1732 µg / g sob o tratamento da combinação N150P75 kg ha-¹, enquanto a média do nível mais baixo de toxina foi de 0,9158 e 0,7641 µg / g no nível de N50P25 kg ha-¹ em 80 e 120 DAS (dias após a semeadura), respectivamente. Concluiu-se com a pesquisa que o uso de fertilizantes NP tem relação positiva com a expressão da toxina Cry1Ac no algodão Bt. Recomendamos o uso do nível de N150P50 kg ha-¹ como o fertilizante mais econômico e praticável em vez da dose padrão N100P50 kg ha-¹ para obter o nível desejado de nível de Cry1Ac para resistência de planta de longa duração (<1,5). A dose revisada de fertilizante pode ajudar os agricultores a evitar o desenvolvimento de resistência cruzada em contradição com as pragas de insetos.

Impact of nitrogen and phosphorus fertilizers on Cry1Ac protein contents in transgenic cotton

Abstract Application of different fertilizers to check the efficiency of expression of Bt (Bacillus thuringiensis) gene in one of the leading commercialized crops (cotton) against Lepidopteran species is of great concern. The expression of Cry protein level can be controlled by the improvement of nutrients levels. Therefore, the myth of response of Cry toxin to different combinations of NP fertilizers was explored in three Bt cotton cultivars. Combinations include three levels of nitrogen and three levels of phosphorus fertilizers. Immunostrips and Cry gene(s) specific primer based PCR (Polymerase Chain Reaction) analysis were used for the presence of Bt gene that unveiled the presence of Cry1Ac gene only. Further, the ELISA (enzyme-linked immunosorbent assay) kit was used to quantify the expression of Cry1Ac protein. Under various NP fertilizers rates, the level of toxin protein exhibited highly significant differences. The highest toxin level mean was found to be 2.3740 and 2.1732 µg/g under the treatment of N150P75 kg ha-1 combination while the lowest toxin level mean was found to be 0.9158 and 0.7641 µg/g at the N50P25 kg ha-1 level at 80 and 120 DAS (Days After Sowing), respectively. It was concluded from the research that the usage of NP fertilizers has a positive relation with the expression of Cry1Ac toxin in Bt cotton. We recommend using the N150P50 kg ha-1 level as the most economical and practicable fertilizer instead of the standard dose N100P50 kg ha-1 to get the desired level of Cry1Ac level for long lasting plant resistance ( 1.5). The revised dose of fertilizer may help farmers to avoid the cross-resistance development in contradiction of insect pests.

Resumo A aplicação de diferentes fertilizantes para verificar a eficiência da expressão do gene Bt (Bacillus thuringiensis) em uma das principais culturas comercializadas (algodão) contra espécies de lepidópteros é uma grande preocupação. A expressão do nível de proteína Cry pode ser controlada pela melhoria dos níveis de nutrientes. Portanto, o mito da resposta da toxina Cry a diferentes combinações de fertilizantes NP foi explorado em três cultivares de algodão Bt. As combinações incluem três níveis de nitrogênio e três níveis de fertilizantes de fósforo. A análise de PCR (reação em cadeia da polimerase) específica para o gene (s) Immunostrips e Cry (s) foi usada para a presença do gene Bt que revelou a presença do gene Cry1Ac apenas. Além disso, o kit ELISA (ensaio de imunoabsorção enzimática) foi usado para quantificar a expressão da proteína Cry1Ac. Sob várias taxas de fertilizantes NP, o nível de proteína de toxina exibiu diferenças altamente significativas. A média do nível mais alto de toxina foi de 2,3740 e 2,1732 µg / g sob o tratamento da combinação N150P75 kg ha-1, enquanto a média do nível mais baixo de toxina foi de 0,9158 e 0,7641 µg / g no nível de N50P25 kg ha-1 em 80 e 120 DAS (dias após a semeadura), respectivamente. Concluiu-se com a pesquisa que o uso de fertilizantes NP tem relação positiva com a expressão da toxina Cry1Ac no algodão Bt. Recomendamos o uso do nível de N150P50 kg ha-1 como o fertilizante mais econômico e praticável em vez da dose padrão N100P50 kg ha-1 para obter o nível desejado de nível de Cry1Ac para resistência de planta de longa duração ( 1,5). A dose revisada de fertilizante pode ajudar os agricultores a evitar o desenvolvimento de resistência cruzada em contradição com as pragas de insetos.

Impact of nitrogen and phosphorus fertilizers on Cry1Ac protein contents in transgenic cotton / Impacto de fertilizantes de nitrogênio e fósforo nos conteúdos de proteína Cry1Ac em algodão transgênico

Abstract Application of different fertilizers to check the efficiency of expression of Bt (Bacillus thuringiensis) gene in one of the leading commercialized crops (cotton) against Lepidopteran species is of great concern. The expression of Cry protein level can be controlled by the improvement of nutrients levels. Therefore, the myth of response of Cry toxin to different combinations of NP fertilizers was explored in three Bt cotton cultivars. Combinations include three levels of nitrogen and three levels of phosphorus fertilizers. Immunostrips and Cry gene(s) specific primer based PCR (Polymerase Chain Reaction) analysis were used for the presence of Bt gene that unveiled the presence of Cry1Ac gene only. Further, the ELISA (enzyme-linked immunosorbent assay) kit was used to quantify the expression of Cry1Ac protein. Under various NP fertilizers rates, the level of toxin protein exhibited highly significant differences. The highest toxin level mean was found to be 2.3740 and 2.1732 µg/g under the treatment of N150P75 kg ha-1 combination while the lowest toxin level mean was found to be 0.9158 and 0.7641 µg/g at the N50P25 kg ha-1 level at 80 and 120 DAS (Days After Sowing), respectively. It was concluded from the research that the usage of NP fertilizers has a positive relation with the expression of Cry1Ac toxin in Bt cotton. We recommend using the N150P50 kg ha-1 level as the most economical and practicable fertilizer instead of the standard dose N100P50 kg ha-1 to get the desired level of Cry1Ac level for long lasting plant resistance (<1.5). The revised dose of fertilizer may help farmers to avoid the cross-resistance development in contradiction of insect pests.

Resumo A aplicação de diferentes fertilizantes para verificar a eficiência da expressão do gene Bt (Bacillus thuringiensis) em uma das principais culturas comercializadas (algodão) contra espécies de lepidópteros é uma grande preocupação. A expressão do nível de proteína Cry pode ser controlada pela melhoria dos níveis de nutrientes. Portanto, o mito da resposta da toxina Cry a diferentes combinações de fertilizantes NP foi explorado em três cultivares de algodão Bt. As combinações incluem três níveis de nitrogênio e três níveis de fertilizantes de fósforo. A análise de PCR (reação em cadeia da polimerase) específica para o gene (s) Immunostrips e Cry (s) foi usada para a presença do gene Bt que revelou a presença do gene Cry1Ac apenas. Além disso, o kit ELISA (ensaio de imunoabsorção enzimática) foi usado para quantificar a expressão da proteína Cry1Ac. Sob várias taxas de fertilizantes NP, o nível de proteína de toxina exibiu diferenças altamente significativas. A média do nível mais alto de toxina foi de 2,3740 e 2,1732 µg / g sob o tratamento da combinação N150P75 kg ha-1, enquanto a média do nível mais baixo de toxina foi de 0,9158 e 0,7641 µg / g no nível de N50P25 kg ha-1 em 80 e 120 DAS (dias após a semeadura), respectivamente. Concluiu-se com a pesquisa que o uso de fertilizantes NP tem relação positiva com a expressão da toxina Cry1Ac no algodão Bt. Recomendamos o uso do nível de N150P50 kg ha-1 como o fertilizante mais econômico e praticável em vez da dose padrão N100P50 kg ha-1 para obter o nível desejado de nível de Cry1Ac para resistência de planta de longa duração (<1,5). A dose revisada de fertilizante pode ajudar os agricultores a evitar o desenvolvimento de resistência cruzada em contradição com as pragas de insetos.

Effect of a Compound Microbial Fertilizer on Growth， Quality， and Soil Properties of Andrographis paniculata / 中国实验方剂学杂志

ObjectiveTo study the effect of a microbial compound fertilizer on the growth， quality， and soil properties of Andrographis paniculata and provide a basis for its application in the cultivation and production of A. paniculata. MethodThrough five treatment tests in pots， the control group （CK， no fertilization）， the treatment A group （chemical fertilization）， the treatment B group （microbial fertilization at 2.5 g·kg-1 soil）， the treatment C group （microbial fertilization at 7.5 g·kg-1 soil）， and the treatment D group （microbial fertilization at 12.5 g·kg-1 soil） were established. The effects of a compound microbial fertilizer on the agronomic properties， the content of active ingredients， the number of rhizosphere soil bacteria， Actinomycetes， and fungi， and soil physicochemical properties of A. paniculata were studied. ResultAs compared with the CK group and the treatment A group， the plant height， leaf number， leaf area， and above-ground and below-ground fresh weight of A. paniculata were significantly increased after microbial fertilization， with differences in different growth periods. The effect of the compound microbial fertilizer on the content of andrographolide， dehydrated andrographolide， neandrographolide， and 14-deoxyandrographolide differed. The content of andrographolide significantly increased by 26.13% and 13.23% in the treatment C group， respectively， as compared with the CK group and the treatment A group （P<0.05）. The content of neandrographolide increased with the increasing amount of microbial fertilizer， and the content in the treatment D group increased by 9.06% and 50.33%， respectively， as compared with the CK group and the treatment A group （P<0.05）， which was the most obvious. The content of 14-deoxyandrographolide in the treatment B group significantly increased by 42.04% and 1.74%， respectively， as compared with the treatment A group and the CK group （P<0.05）. The content of dehydrated andrographolide content in the treatment B group increased most significantly， significantly increasing by 11.73% and 27.74%， respectively， as compared with the CK group and the treatment A group （P<0.05）. The soil pH of the treatment B， C， and D groups was higher than that of the CK group and the treatment A group. The content of total nitrogen and effective phosphorus increased most significantly in the treatment B group， and the content of fast-acting potassium increased most significantly in the treatment D group. The application of the compound microbial fertilizer increased the number of rhizosphere soil bacteria and Actinomycetes， which was significantly higher than that in the CK group and the treatment A group （P<0.05）， and increased with the increase of applied amount. The number of fungi decreased with the increase of the compound microbial fertilizer application， which was significantly different from that in the CK group （P<0.05）. The fungi/bacteria of all treatment groups were significantly lower than those of the CK group （P<0.05） and increased with the increase of microbial fertilizer application. ConclusionThe application of the compound microbial fertilizer transforms the plant-soil-microbial system in a benign direction， which is beneficial to the growth of A. paniculata and the accumulation of active ingredients.

Physiological studies and nutrient accumulation in mustard varieties in response to fertilizer doses under saline condition in semi-arid region of northwestern Haryana

The present study was conducted to find out the salt tolrant mustard variety for semi-arid region because this region has higher amount of poor quality water for irrigation and nutrient accumulation under saline environment is the most limiting factor in the sustainable crop production. For this four mustard varieties in main plots (Kranti, Giriraj, CS-54, and CS-58) and three fertilizer doses in sub-plots (100, 125 and 150% RDF). During the experimentation, saline water irrigation (7 dS m-1) was applied. The physiological parameters like RWC (75.54 to 80.34 %), total chlorophyll content (1.60 to 1.91 mg g-1 FW), and photosynthetic rate (10.09 to 14.79 µmol CO2 m-2s-1) were significantly increased with increasing dose of fertilizers. Yield stability index was highest with the application of 150% RDF. HI index showed a decline trend with the increasing dose of fertilizers, whereas oil content decreased non-significantly. Irrespective of fertilizer doses, variety CS-58 recorded maximum seed yield (22.89 q ha-1), biological yield (11.22 q ha-1); and other physiological parameters followed by CS-54, Giriraj, and Kranti mustard varieties. Variety CS-58 had the highest nutrient content (N, P, and K) in straw, with reaching to 125% RDF being at par with 150% RDF, followed by CS-54, Giriraj, and Kranti, respectively. The salt ratio (Na+:K+) decreased non-significantly with fertilizer doses, its mean value was however lowest in CS-58.

A COMPARATIVE STUDY ON PROFITABILITY ANALYSIS OF SELECTED FERTILIZER COMPANIES OF INDIA

The purpose of the study is to understand A comparative study of ?nancial performance in relation with pro?tability aspect of fertilizer companies in India. The Pro?tability ratios indicate how ef?ciently a business will be able to generate revenues and pro?ts through its operations. Pro?tability ratios are a class of ?nancial metrics that are used to assess a business's ability to generate earnings relative to its revenue, operating costs, balance sheet assets, or shareholders' equity over time, using data from a speci?c point in time. Pro?tability ratios are ?nancial metrics used by analysts and investors to measure and evaluate the ability of a company to generate income (pro?t) relative to revenue, balance sheet assets, operating costs, and shareholders' equity during a speci?c period of time. The period of study would be ten years during 2010-11 to 2019-20.

Water depths and nitrogen rates on sugarcane growth and dry biomass accumulation

Irrigation and soil fertilization management are essential agricultural practices that improve the growth and development of sugarcane plants and, consequently, increase their production capacity, which is important for sugar and alcohol productions. In this context, the objective of this work was to evaluate the effect of water depths and nitrogen rates on the growth and dry biomass accumulation of sugarcane plants. The treatments consisted in four water depths (1,498; 1,614; 1,739; and 1,854 mm), five nitrogen rates (0; 20; 40; 80; and 120 kg ha-1) and five evaluation times. The experiment was conducted in a randomized block design with a split-split-plot arrangement and four replications, including the factors water depths, nitrogen rates, and days after planting. The dry biomasses of the plant pointer, leaves and culms, culm diameter, plant height, and number of plants were analyzed. The application of nitrogen increased the sugarcane biomass, mainly the pointer (with leaves) and dry culm biomass, and the number of plants. The highest dry culm biomass accumulation and dry leaf biomass were found at the end of the crop cycle for the treatment with the application of nitrogen rates of 80 and 120 kg ha-1. The increases in water depths applied increased the number of plants per linear meter, but the culm and dry leaf biomass did not happen.

Obtención y caracterización físico química de un sustrato nutritivo hecho a partir de los desechos del cacao para la producción de plántulas de hortalizas: en asocio con empresa Chukwa Chocolates / Obtaining and physicochemical characterization of a nutritive substrate made from cacao waste for the production of vegetable seedlings: in association with Chukwa Chocolates

En el beneficiado del cacao se producen una gran cantidad de residuos, las mazorcas generalmente son desechadas dentro de los mismos cultivos y genera problemáticas como la proliferación de insectos y microorganismos patógenos. De estos desechos las cáscaras son las de mayor relevancia. La Escuela de Ingeniería Química de ITCA-FEPADE evaluó añadirle valor a este subproducto, incorporando desechos de cáscara de cacao en la formulación de un sustrato para el cultivo de plántulas de hortalizas. El objetivo de esta investigación fue obtener un sustrato orgánico que sirva de soporte material y nutritivo a partir de cáscaras de cacao criollo. La biomasa vegetal se caracterizó teniendo en cuenta parámetros como el porcentaje de humedad, pH, porcentaje de cenizas, contenido de potasio, nitrógeno y fósforo. Se ejecutaron pruebas comparativas de formulación del sustrato, siembra, cultivo y crecimiento de las plántulas de hortalizas de tomate y pepino, obteniendo como resultado la fórmula óptima de un sustrato y abono orgánico y el mejor medio de desarrollo. De los resultados obtenidos se concluye que, a partir de un adecuado procesamiento y aprovechamiento de las cáscaras de cacao, se puede transformar este desecho en un producto biomaterial alternativo que genera una opción de bioprospección agroindustrial.

In the cacao beneficiation, a large amount of waste is produced, generally, the cacao pods are discarded within the same crops and generate problems such as the proliferation of insects and pathogenic microorganisms. The shell are the most relevant this waste. In Escuela de Ingeniería Química of ITCA-FEPADE the incorporation of cacao shell waste in the formulation of a substrate for growing vegetables was evaluated because the giving benefit to these by-products. The objective of this research was to obtain a substrate that serves as material and nutritional support for vegetable seedlings, from creole cacao shells. The vegetal biomass was characterized taking into account parameters such as moisture percentage, pH, ash percentage, potassium, nitrogen and phosphorus content. Subsequently, comparative tests of formulation, planting and growth of vegetable tomato and cucumber seedlings were carry out, obtaining as result, the optimal formula for the substrate and the best development environment. It concludes that, through an adequate processing and use of the cacao shell, it is possible to transform a waste into an alternative biomaterial product that generates an agro industrial bioprospecting option.

Optimal Potassium Application Rate for Panax ginseng / 中国实验方剂学杂志

ObjectiveThe law of fertilizer requirement serves as the basis for the fertilization of medicinal plants， development of special fertilizer， and high-quality medicinal materials. MethodThis study aims to explore the optimal potassium application rate for Panax ginseng to achieve high yield and quality of the medicinal material and targeted management of potassium fertilizer. To be specific， 6 concentration gradients （0， 2， 4， 8， 10， and 12 mmol·L-1） of potassium sulfate （potassium fertilizer） were designed and applied to the 4-year-old P. ginseng in CK， C1， C2， C3， C4， and C5 treatments， respectively. Thereby， the influence of potassium concentration on P. ginseng was observed. ResultWhen potassium sulfate was applied at 8 mmol·L-1， P. ginseng had the chlorophyll content of 32.13%， net photosynthetic rate of 2.548 8 µmol·m-2·s-1， and activities of superoxide dismutase （SOD）， peroxidase （POD）， and catalase （CAT） significantly higher than those in the CK， C1， C4， and C5 treatments （P<0.05）. The average fresh weight of P. ginseng roots was 6.25 g， 134% up from the CK， and the content of ginsenoside Rg1 （5.24 mg·g-1） and Re （4.17 mg·g-1） and total saponins （12.33 mg·g-1） was significantly higher than that in CK and other treatments （P<0.05）. Thus， 8 mmol·L-1 potassium sulfate was most favorable for the growth and effective component accumulation of four-year-old P. ginseng. ConclusionThis study expounds the effect of potassium fertilizer on the yield and quality of P. ginseng， which is expected to help guide the precise application of potassium fertilizer in P. ginseng production in the field and lay a theoretical basis for the development of special fertilizer for P. ginseng and the optimization of fertilization technology.

Effect of Micro-fertilizer Containing Rare Earth on Growth，Yield and Quality of Angelica sinensis / 中国实验方剂学杂志

ObjectiveTo investigate the effects of micro-fertilizer containing rare earth of different types and concentrations on the growth，yield and quality of Angelica sinensis. MethodOn the basis of the single-factor randomized block design， the growth and index components of Angelica sinensis were determined with rare earth-containing nitrate and chloride micro-fertilizers of different concentrations as foliar fertilizers. ResultSpraying 0.8 g·mL-1 rare earth-containing chloride micro-fertilizer could increase the economic yield of A. sinensis， with the fresh yield per mu （1 mu≈667 m2） reaching 855.4 kg and the dry yield per mu 350.7 kg，which increased by 15.16% and 28.70% respectively compared with that in the control group CK1. Spraying 1.2 g·mL-1 rare earth-containing nitrate micro-fertilizer could promote the growth and development of A. sinensis and significantly increase the content of index components， with the plant height reaching 93.05 cm，the stem diameter 15.60 mm，the root diameter 16.10 mm，the main root length 36.5 cm，and the number of leaves 11.25 pieces per plant， which increased by 32.76%，31.98%，41.98%，53.36%，and 45.16%， respectively， compared with those in the control group CK2. Besides， the content of ferulic acid，volatile oil，ligustilide， and extract was 0.96%，0.41%，0.30% and 48.76%，respectively，which increased by 12.94%，17.14%，11.11%， and 12.07%，respectively，compared with that in the control group CK2. ConclusionSpraying 0.8 g·mL-1 rare earth-containing chloride micro-fertilizer and 1.2 g·mL-1 rare earth-containing nitrate micro-fertilizer can promote the growth and development of A. sinensis，improve the medicinal properties，and increase yield and quality. Rare earth-containing micro-fertilizers can be applied in the standardization of A. sinensis cultivation， which can change the production status of A. sinensis that depends on chemical fertilizers and single fertilization， and promote the green， organic and ecological cultivation of A. sinensis.

Effect of Three Microbial Fertilizers on Growth，Yield，Quality and Cadmium Accumulation of Chuanxiong Rhizoma / 中国实验方剂学杂志

ObjectiveTo explore the effects of three kinds of microbial fertilizers on the growth， yield， quality， and cadmium （Cd） accumulation of Chuanxiong Rhizoma （CX）. MethodTaking CX seeds as materials， field experiments were carried out in the main producing areas， Pengzhou and Meishan. The samples were collected during the harvesting period， and the agronomic characters and yield were determined. The contents of extract， volatile oil， and ferulic acid were analyzed by the collection method of Chinese Pharmacopoeia （2020 edition）. The content of Cd was determined by inductively coupled plasma-mass spectrometry （ICP-MS）. Data were processed by difference significance analysis， correlation analysis and cluster analysis. ResultThree kinds of microbial fertilizers with appropriate concentrations could promote the growth of CX. In terms of yield and quality， the treatment of Jinwuzong （1.50 ton/hm2， 1 ton=1 000 kg， the same below） and Cuijingyuan （1.5 L·hm-2） could increase the yield of medicinal materials by 0.92%-46.34%， while Cuijingyuan （1.8 L·hm-2） and Shenchu （15， 30 kg·hm-2） could increase the water-soluble extract of CX by 0.06%-18.79%， of which Cuijingyuan （1.8 L·hm-2） was significantly increased （P<0.01）. The alcohol-soluble extract of CX treated with Jinwuzong （0.75， 1.50， 2.25 ton/hm2）， Shenchu （15， 45 kg·hm-2）， and Cuijingyuan （1.2 L·hm-2） decreased significantly by 3.51%-22.94% （P<0.01）. The content of ferulic acid in CX treated with Jinwuzong （1.50 ton/hm2） and Shenchu （30 kg·hm-2） decreased by 2.14%-30.56%. Three kinds of microbial fertilizers had little effect on the content of volatile oil in CX. In the aspect of Cd enrichment， the concentration of Cd in rhizosphere soil of CX was increased by 11.33%-76.36% （P<0.01） after the treatment of Jinwuzong （0.75， 1.50， 2.25 ton/hm2）， Shenchu （15， 30， 45 kg·hm-2） and Cuijingyuan （1.2 L·hm-2）. However， the Cd enrichment coefficient of CX reduced by 2.58%-48.38%， the Cd content and Cd accumulation of CX decreased respectively by 9.54%-25.96% and 9.34%-18.88% via Jinwuzong （0.75 ton/hm2） and Cuijingyuan （1.8 L·hm-2）. ConclusionThree kinds of microbial fertilizers have a certain positive effect on the growth， substance accumulation， and reduction of Cd content in medicinal parts of CX， and the changes of each index are affected by the producing area and treatment method. Based on the comprehensive analysis of various indicators， Jinwuzong （0.75， 1.50 ton/hm2） can better adapt to the rhizosphere soil micro-ecological environment of CX， it can effectively reduce the content of Cd on the premise of guaranteeing the yield and quality of CX.

Caracterização da exposição humana a lodo de esgoto sanitário na cadeia: tratamento, uso agrícola e consumo de hortaliças / Characterization of human exposure to sewage sludge in the chain: treatment, agricultural use and consumption of vegetables

RESUMO Objetivou-se caracterizar a exposição humana à infecção por bactérias e vírus via ingestão, considerando os cenários: tratamento do lodo (cenário 1); uso do lodo como adubo agrícola (cenário 2) e consumo de hortaliças adubadas com lodo (cenário 3). A exposição foi caracterizada pelas concentrações de Escherichia coli, vírus entéricos cultiváveis (VEC) e colifagos somáticos (CS) nas amostras: lodo de esgoto em tratamento (LET), água de lavagem das mãos (ALM) no tratamento e no plantio, mistura solo + lodo (MSL) e hortaliças alface e cenoura. No cenário 1, em torno de 50-60 dias, as amostras LET apresentaram umidade < 10% e padrão classe A. Nas amostras LET, concentrações de CS variaram entre 9,1 × 102 e 1,9 × 105 UFP.g-1 ST e de VEC entre 2,42 e 7,15 UFP.g-1 ST. No cenário 2, CS foram detectados em 72% das amostras MSL com concentrações entre 10 e 330 UFP.mL-1. Concentrações de E. coli ≤ 102 NMP.100 mL-1 foram detectadas nas amostras ALM-tratamento (63,7%). Para vírus, todas as ALM-tratamento foram negativas e 17,4% das ALM-plantio apresentaram VEC entre 3 e 409,2 UFP.mL-1. Todas as amostras de alface foram negativas para CS e VEC. Considerando-se as características dos cenários avaliados, trabalhadores do serviço de saneamento, trabalhadores rurais e consumidores de hortaliças estiveram expostos a baixas concentrações de E. coli e VEC. CS foram resistentes ao tratamento térmico e ao plantio, o que sugere seu potencial como indicadores de VEC.

ABSTRACT The aim of this study was to characterize human exposure to microbiological contamination (bacteria and viruses) via ingestion, considering the following scenarios: treatment of sludge (scenario 1); use of sludge as fertilizer (scenario 2) and consumption of vegetables fertilized with sludge (scenario 3). Exposure was characterized by the levels of Escherichia coli, cultivable enteric viruses (CEV) and somatic coliphages (SC) in the samples: sewage sludge under treatment (SST); handwashing water (HW) in treatment and planting; mix soil + sludge (MSL) and the vegetables lettuce and carrots. In scenario 1, SST samples presented < 10% humidity and class A pattern around 50-60 days; SC concentrations ranged from 9.1 × 102 to 1.9 × 105 PFU.g-1 TS, and CEV ranged from 2.42 to 7.15 PFU.g-1 TS. In scenario 2, CS were detected in 72% of HW samples, and concentrations ranged from 10 to 330 PFU.mL-1. E. coli concentrations ≤ 102 NMP.100 mL-1 were detected in HW-treatment samples (63.7%). Viruses were not detected in 100% of HW-treatments samples, and 17.4% of HW-plantings had CEV concentrations between 3 and 409.2 PFU.mL-1. All the vegetable samples were negative for SC and CEV. Considering the characteristics of the scenarios evaluated, sewage workers, rural workers and consumers of vegetables were exposed to low concentrations of E. coli and CEV. Somatic coliphages were resistant to heat treatment and planting, which supports their potential as indicators of CEV.

Influência do enxofre elementar adicionado em um resíduo da mineração visando à liberação de nutrientes no solo / Influence of elementary added sulfur on a mining waste for nutrient release in soil

RESUMO No estado da Paraíba e no Brasil, a exploração do mineral vermiculita tem gerado grande volume de resíduos no entorno das mineradoras, que tem se tornado um passivo ambiental significativo, com potencial poluente ou contaminante. Dessa forma, neste trabalho, objetivou-se avaliar a influência de proporções do enxofre elementar (fonte p.a) adicionado ao resíduo da exploração de vermiculita sobre a liberação de nutrientes no solo. Para tanto, foi realizado experimento em delineamento inteiramente casualizado em fatorial 5×8, sendo 5 proporções de enxofre elementar (0, 50, 100, 150 e 200 g.kg−1) adicionadas ao resíduo de vermiculita e 8 períodos de incubação (0, 15, 30, 45, 60, 75, 90 e 105 dias) da mistura resíduo-enxofre, com 4 repetições, totalizando 160 parcelas experimentais. Durante 105 dias de incubação, a cada 15 dias, foram determinados, na mistura solo-resíduo-enxofre, os teores disponíveis de K, Na, Ca, Mg, P, SO4−2 e os valores de pH. O resíduo de mineração associado ao enxofre elementar proporcionou, na mistura, aumento significativo nos teores de sulfato, cálcio e fósforo disponíveis, redução do pH e dos teores de K. Os teores de Mg não foram influenciados pela adição do "aditivo"; já em relação aos teores de Na, houve aumento significativo. Conclui-se que a mistura rejeito-enxofre tem potencial para incrementar os teores de alguns nutrientes do solo. Contudo, seu uso pode ser limitado em solos com dificuldade de drenagem em razão do acúmulo excessivo de sódio trocável.

ABSTRACT In the state of Paraíba and in Brazil, the exploitation of the vermiculite mineral has generated a large volume of waste in the vicinity of the mining companies, which has become a significant environmental liability, with polluting or contaminating potential. Thus, in this work, the objective was to evaluate the influence of proportions of elemental sulfur (source p.a) added to the vermiculite exploration residue on the release of nutrients in the soil. For this purpose, an experiment was carried out in a completely randomized design in a 5 × 8 factorial, with five proportions of elemental sulfur (0, 50, 100, 150 and 200 g.kg−1) added to the vermiculite residue and eight incubation periods (0, 15, 30, 45, 60, 75, 90 and 105 days of incubation) of the residue-sulfur mixture, with four replications, totaling 160 experimental plots. During 105 days of incubation, every 15 days, the available contents of K, Na, Ca, Mg, P, SO4−2 and pH values were determined in the soil-residue-sulfur mixture. The mining residue associated with elemental sulfur, provided in the mixture, significant increase in the contents of sulfate, calcium and phosphorus available, reduction of the pH and of the contents of K. The contents of Mg were not influenced by the addition of the "additive", already in relation to Na levels, there was a significant increase. In conclusion, It is concluded that the sulfur-tailing mixture has the potential to increase the contents of some nutrients in the soil, however, its use may be limited in soils with drainage difficulties due to excessive accumulation of exchangeable sodium.

Organic fertilization as an alternative to the chemical in cherry tomato growing under irrigation depths

Two experiments were carried out to evaluate the effects of organic fertilization as an alternative to the chemical on the yield and quality of cherry tomato grown under different irrigation depths in protected environment, in 2013 and 2014. The experimental design was in randomized blocks (5 x 3 factor), with five irrigation depths as the factors (70%, 85%, 100%, 115% and 130% of ETc) and three types of fertilization: no fertilized soil (control), NPK fertilized soil (Chemical) and earthworm humus fertilized soil (organic). The following were evaluated in this study: water use efficiency, number of aborted flowers, total soluble solid content, transverse and longitudinal diameter of the fruits, number of fruits and fruit yield per plant. Organic fertilization is an alternative to the chemical with no losses in yield and fruit quality. The increase in water depth enhanced yield and fruit diameters and reduced water use efficiency. Water use efficiency was more sensitive to the increments in water depth than to different types of fertilization. The values ​​of °Brix obtained in the experiment were classified as acceptable for the domestic and international market when submitted to organic fertilization.

Effects of Combined Application Organic Fertilizer and Chemical Fertilizer on Agronomic Characters，Yield and Quality of Artemisiae Argyi Folium / 中国实验方剂学杂志

Objective:To explore the effect of different proportions of organic fertilizer and chemical fertilizer on the agronomic traits， yield and quality of Artemisiae Argyi Folium in Qichun county， and provide a theoretical basis for scientific fertilization of its planting. Method:Field plot experiment was carried out to set up 5 treatment methods with different proportions of organic fertilizers and chemical fertilizers［OM₀ （no combined application of biological organic fertilizer）， OM₁₇ （combined application of 17% biological organic fertilizer）， OM₃₃ （combined application of 33% biological organic fertilizer）， OM₆₇ （combined application of 67% biological organic fertilizer）， OM₁₀₀ （combined application of 100% biological organic fertilizer）］. The effects of different treatment methods on the agronomic characters， leaf yield， output rate of moxa， volatile oil content， flavonoid and phenolic acid contents and mineral element contents of Artemisiae Argyi Folium in Qichun county were determined. Result:With the increase of the proportion of organic fertilizer in application， the seedling number per unit area， plant height， stem diameter， leaf number， leaf width， leaf length， height of dead leaves and leaf yield of Artemisiae Argyi Folium were increased at first and then decreased. Among them， the yield of Artemisiae Argyi Folium in OM₃₃ treatment was 61.37% higher than that in OM₀ treatment. With the increase of the proportion of organic fertilizer， the output rate of moxa of Artemisiae Argyi Folium showed continuously increasing trend， contents of volatile oil and volatile components （eucalyptol， <italic>α</italic>-thujone， borneol， camphor and caryophyllene oxide） increased at first and then decreased， while the contents of <italic>α</italic>-caryophyllene and <italic>β</italic>-syringene decreased gradually， the contents of phenolic acids （neochlorogenic acid， chlorogenic acid， isochlorogenic acid B， A and C） increased at first and then decreased， while the contents of flavonoids （jaceosidin and eupatilin） increased continuously， and the contents of mineral elements （Ca， Cu and Zn） continued to increase， but the content of K decreased significantly at the high proportion of organic fertilizer. After treated with principal component analysis （PCA）， it was found that OM₁₇ treatment had the highest quality， while OM₁₀₀ and OM₀ treatment had low quality. Conclusion:Based on comprehensive analysis of agronomic traits， yield and quality indexes of Artemisiae Argyi Folium in Qichun county， it is suggested that 17%-33% proportion of organic fertilizer should be used in its production， in order to improve the quality and efficiency of Artemisiae Argyi Folium industry in Qichun county.

Isolation and identification of phosphatolytic bacteria in Paris polyphylla var. yunnanensis / 中国中药杂志

The wild resources of Paris polyphylla var. yunnanensis, a secondary endangered medicinal plant, are severely scarce. Introduction and cultivation can alleviate market demand. To screen phosphatolytic bacteria in the rhizosphere soil of P. polyphylla var. yunnanensis and provide data support for the development of high-efficiency microbial fertilizer, in this study, the dilution plate coating method was used to isolate and screen the phosphorus solubilizing bacteria with the ability of mineralizing organic phosphorus from the rhizosphere soil of wild and transplanted varieties of P. polyphylla var. yunnanensis in 10 different locations in Yunnan, Sichuan and Guizhou. After separation and purification, the phosphatolytic capacity was analyzed by qualitative and quantitative analysis. Combined with physiological and biochemical experiments, the strains were identified using 16 S rDNA sequencing analysis. Forty one strains were selected from the rhizosphere soil of P. polyphylla var. yunnanensis from 10 different habitats. Among them, 21 strains were obtained from the rhizosphere soil of the wild variety P. polyphylla var. yunnanensis and 20 strains were obtained from the rhizosphere soil of the transplanted variety. And significance analysis found that 41 organophosphate solubilizing strains had significant differences in their ability to solubilize phosphorus. The amount of phosphate solubilizing was 0.08-67.61 mg·L~(-1), the pH value was between 4.27 and 6.82. The phosphatolytic amount of strain Y3-5 was 67.61 mg·L~(-1), and the phosphorus increase amount was 57.57 mg·L~(-1). All 41 strains were identified as Gram-positive Bacillus. Combining physiological characteristic and phylogenetic trees, Bacillus mobilis Y3-5 was finally selected as the candidate rhizosphere phosphatolytic bacteria of P. polyphylla var. yunnanensis. The distribution of phosphorus solubilizing bacteria in the rhizosphere soil of P. polyphylla var. yunnanensis was different, and there were significant diffe-rences in phosphorus solubility. Organophosphate-dissolving strain Y3-5 is expected to be a candidate strain of P. polyphylla var. yunnanensis microbial fertilizer.

Effect of combined application of inorganic and organic fertilizers on growth and quality of Salvia miltiorrhiza / 中国中药杂志

The study is aimed through field experiments to study the effect of combined application of organic and chemical fertilizers on the growth and quality of Salvia miltiorrhiza, provide ideas for reducing fertilization while increasing the efficiency as well as improving the quality of produces. The experiment included 6 treatments viz., no fertilization(CK), full application of chemical fertilizer(F), 25% orga-nic fertilizer with 75% chemical fertilizer(M25), 50% organic fertilizer with 50% chemical fertilizer(M50), 75% organic fertilizer with 25% chemical fertilizer(M75), and fully apply organic fertilizer(M100). The results showed that:(1)from the perspective of yield and economic benefits, M75 was the best and M100 second;(2)for effective components, the combined application of organic and chemical fertilizers increased the content of main water-soluble components and the total content of effective components, among which M25 and M50 were better.

Effects and mechanisms of nitrogen application on stress resistance of Chinese materia medica / 中国中药杂志

Nitrogen fertilizers play an important role in the regulation of plant stress resistance. Impacts of nitrogen fertilizers on abiotic stress resistance and biotic stress resistance of Chinese materia medica(CMM) were summarized in this study. Adequate nitrogen application improves the abiotic stress resistance and weed resistance of CMM, however adverse effect appears when excess nitrogen is used. Generally, pest resistance decreases along with nitrogen deposition, while effects of nitrogen application on disease resistance vary with different diseases. Mechanisms underlying the impact of nitrogen fertilizers on plant stress resistance were also elucidated in this study from three aspects including physical defense mechanisms, biochemistry mechanisms and molecular defense mechanisms. Nitrogen availability modulates physical barrier of CMM like plant growth, formation of lignin and wax cuticle, and density of stomata. Growth of CMM promoted by nitrogen fertilizer may cause some decrease in pest resistance of CMM due to an increase in hiding places for pest along with plant growth. High ambient humidity caused by excessive plant growth facilitates the growth and development of CMM pathogen. Nitrogen application can also interfere with the accumulation of lignin in CMM which makes CMM more vulnerable to pest and pathogen attack. Stomatal closing delays due to nitrogen application is also a causal factor of increasing pathogen infection after nitrogen deposition. Biochemical defenses of plants are mainly achieved through nutrient elements, secondary metabolites, defense-related enzymes and proteins. Nutritional level of CMM and various antioxidant enzymes and resistance-related protein activities are elevated along with nitrogen deposition. These antioxidant enzymes can reduce the damage of reactive oxygen species content produced by plant in response to adversity and therefore enhance stress resistance of CMM. Researches showed that nitrogen application could also cause an increase in nitrogen-containing secondary metabolites content and a decrease in non-nitrogen-containing secondary metabolites content respectively. Nitrogen-mediated molecular defense mechanisms includes multiple plant hormones and nitric oxide signals. Plant hormones related to plant defense like salicylic acid, jasmonic acid and abscisic acid can be modulated by nitrogen application. Negative effect of nitrogen deposition was found on salicylic acid accumulation and the expression of related plant disease resistance genes. However, jasmonic acid level can be elevated by nitrogen. Nitric oxide signals constitute an important part of nitrogen mediated defense mechanisms. Nitric oxide signaling is related to many aspects of plant immunity. The roles of nitrogen fertilizers in CMM stress resistance are complex and may vary with different CMM varieties and environments. Further studies are urgently needed to provide a comprehensive understanding of how to improve stress resistance of CMM by using fertilizers.

Effects and mechanisms of nitrogen fertilizers on soil and tritrophic interactions in Chinese medicinal plants ecosystem / 中国中药杂志

Nitrogen is one of the most frequently used fertilizers in growth of Chinese medicinal plants(CMP). As in many other ecosystems, CMP ecosystem is also composed of plant-herbivore-natural enemy(tritrophic) interactions. Nitrogen fertilizer influences the growth and reproduction of CMP, and it is also able to heavily shape the ecosystem functions of CMP ecosystem through bottom-up forces. Understanding the specific effects of nitrogen fertilizer towards each trophic level will be beneficial to improve the resistance of CMP to herbivore and enhance the control efficiency of nature enemies to herbivore, and eventually, maximize the yield and quality of CMP. Most papers published on nitrogen use in plants focused mainly on the impact of nitrogen fertilization on CMP yield and quality. Influences of nitrogen application on CMP ecosystem get little attention at present. Therefore, this review summed up the potential effects of nitrogen fertilization on CMP ecosystem from perspectives of soil and tritrophic interactions. First of all, nitrogen fertilizer might decrease soil microbial biomass and altered the community structures of soil bacteria, fungi and protozoa. Negative effects of nitrogen fertilizer were found on biodiversity of soil bacteria and protozoa. Different fungi species respond differently to nitrogen fertili-zers. Nitrogen deposition can also decrease the soil pH. Decreases in soil microbial diversity and soil acidification can cause negative effects on CMP growth. In addition, nitrogen fertilizer could regulate the pest resistance of CMP including constitutive and inducible resistance. Both positive and negative effects of nitrogen application were found on pest resistance of CMP. Moreover, the development and predation of natural enemies were influenced by nitrogen deposition. Nitrogen influences natural enemies in many ways including plant volatiles, plant nutrient and structure and the supplementary food quality. Nectar and honeydew of plants and preys serve as important food source for natural enemies especially in early season when preys are still not available. Finally, the interactions between herbivores and their natural enemies were also shaped by nitrogen fertilizer in many aspects like increasing the nutritional content of prey and changing control efficiency of natural enemies. Some herbivores have evolved a strategy to sequester secondary metabolites which they absorbed from plant during their feeding. Studies showed that sequestration efficiency of secondary metabolites in prey could also be regulated by nitrogen. Parasitic, emergence, reproduction rate and longevity of parasites were found positively correlated with nitrogen deposition. Hopefully this study will shed light on practicable and economical application of nitrogen in cultivation of CMP.

Current situation of nitrogen application and its effects on yield and quality of Chinese materia medica / 中国中药杂志

Nitrogen fertilizer has been the long-lasting crucial component in cultivation of Chinese materia medica(CMM) and crops for its profound effects on enhancing the productivity. In consideration of its role in better production, intensive and excessive application of N fertilizer is often found in CMM cultivation. Therefore, firstly, this review summarized various concentrations of N application with regards to different CMM and districts from the literatures published in the last two decades. The recommended concentration of nitrogen application of forty seven CMM species were covered in this review. We found that the optimum rates of nitrogen fertili-zer for different medicinal plants species were varied in the range between 0-1 035.55 kg·hm~(-2). Most of the optimum rates of nitrogen fertilizer for CMM in published researches fell between 100-199 kg·hm~(-2). The optimum rate of nitrogen fertilizer is not only related to amount of nitrogen required for different medicinal plants but also to soil fertilities of different fields. In addition, we outlined the diffe-rent effects of proper and excessive nitrogen deposition on yield of CMM. Proper nitrogen deposition benefits the yield of CMM, howe-ver, excessive nitrogen use accounts for a decrease in CMM yield. We elucidated that nutritional content, water use efficiencies, and photosynthesis capacity were major influencing factors. Researches showed that proper nitrogen fertilizer could promote the water use efficiencies of plants and boost photosynthesis. Consequently, the yield of CMM can be enhanced after nitrogen deposition. However, negative effects of nitrogen fertilizer were also found on plant including producing toxic substances to the soil and causing severe pest damages. Lastly we analyzed the impact of N fertilizer application on secondary metabolites which accounts for a large part of active pharmaceutical ingredients of CMM. It usually caused an increase in nitrogen-containing secondary metabolites content and a decrease in non-nitrogen-containing secondary metabolites content respectively. The potential underlying mechanisms are the different synthetic pathways of these metabolites and the plant nutritional status. Synthesis of non-nitrogen-containing secondary metabolites like phenols can be inhibited after nitrogen application because of the competition of the same precursor substances between metabolites synthesis and plant growth. To sum up, impacts and mechanisms of nitrogen fertilizer on yield and quality enhancement of CMM were discussed in this review. Negative effects of excessive nitrogen application on CMM should be paid special attention in CMM cultivation and prescription fertilization based on the field soil quality is strongly recommended. Overall, this review aims to provides insights on improving the proper application of N fertilizer in the cultivation of CMM.