Your search keyword '"Mineral nutrition"' showing total 4,789 results

1. Neutron activation analysis for development of organic coffee leaves reference material.

Author

de Lima, Letícia, De Nadai Fernandes, Elisabete A., Sarriés, Silvana Regina Vicino, Bacchi, Márcio Arruda, de Lima, Robson Campos, and Moreira, Gabriele Rossini

Abstract

A reference material of Coffea arabica leaves from a farm with organic management certification was developed at CENA/USP. Neutron activation analysis was used to determine chemical elements, including assessment of homogeneity and stability. The material was characterized for Ba, Br, Ca, Co, Fe, K, La, Na, Rb, Sc, Sm, Sr and Zn. Reference values were assigned to all elements except Co and Zn whose homogeneous distribution in the material could not be confirmed. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effects of N, P and K fertilizations on bud nutrient concentrations and fruit set of sweet cherry trees.

Author

Uçgun, Kadir, Altındal, Mesut, Sarısu, Hasan Cumhur, Cansu, Murat, Karamürsel, Ömer Faruk, and Akol, Süleyman

Subjects

*CHERRIES, *MINERALS in nutrition, *COPPER, *FRUIT, *HIGH temperatures, *SWEET cherry

Abstract

Factors such as pollinators, pollen quality, pollinator variety, high temperatures, and nutrients affect the fruit set in sweet cherry trees. In this study, the effects of different doses of N, P, and K applied from the soil on fruit set of sweet cherry were investigated. Flower bud minerals (N, P, K, Ca, Mg, Fe, Cu, Mn, Zn, and B), fruit set ratios (FSR), and yield values were determined to compare treatments for 3 years (2015–2017). FSR (%) and yield (kg/tree) values ​​ranged between 14.31–21.76 and 11.11–14.88 for N, 11.94–22.64 and 11.23–14.82 for P, 12.38–17.39 and 12.67–13.68 for K, respectively. N affected fruit bud N, Mg, Fe, Mn, and B concentrations, FSR and yield. Parameters other than FSR increased with increasing N doses and the highest values ​​were obtained from the highest N treatment. FSR of the highest N dose was the same as the control treatment, but lower in the other treatments. P affected fruit bud P and Mg concentrations, FSR and yield. Fruit bud P and Mg concentrations increased as compared to the control treatment. The change in FSR and yield values ​​could not be associated with the application dose, but showed linear changes with each other. K was effective only on FSR, the lowest values ​​were obtained at the highest dose, while it was similar at the other doses. Fruit set ratio of sweet cherry trees under present experimental conditions could not be associated with the change in fruit bud nutrients due to N, P and K fertilization. [ABSTRACT FROM AUTHOR]

Published

2024

3. Compositional nutrient diagnosis (CND) applied to strawberry soilless.

Author

Rocha, Camila da Silva, Rozane, Danilo Eduardo, Santos, Eduardo Macial Haitzmann dos, Cipriano, Patriciani Estela, Pauletti, Volnei, Lima, Juliana Domingues, and Zawadneak, Maria Aparecida Cassilha

Subjects

*DEFICIENCY diseases, *MINERALS in nutrition, *COPPER, *PLANT nutrients, *PLANT cells & tissues, *TRACE elements, *STRAWBERRIES

Abstract

Soluble fertilizers are among the main costs in strawberry production, so knowing the nutrients balance in plant tissue is essential. In this sense, the Compositional Nutrient Diagnosis (CND) method is presented as a multivariate analysis tool for the nutritional diagnosis of the crop. The main goal of this paper was to establish CND standards and critical nutrient levels in strawberries cultivated in a soilless system. This study uses the Compositional Nutrient Diagnosis (CND) method to analyze nutrient levels grown in a soilless system. Commercial production greenhouses were evaluated for yield and leaf nutrients contents to develop the standards. Data were collected from 52 plots, each consisting of diagnostic leaves from 10 plants, and subsequently analyzed to determine critical nutrient deficiencies and excesses. The CND methodology was sensitive in diagnosing the differences between high and low-yield populations. Thus, adjusting the critical nutrient levels for soilless strawberry cultivation was possible. Due to deficiency, the most limiting nutrients for strawberry production were N, Mg, and S, and Zn and Cu due to excess. Results indicate specific nutrient thresholds, with significant findings from the integration of all indices, it was possible to calculate the sufficiency ranges for soilless strawberry: N = 26–31, P = 4–7, K = 8–11, Ca = 10–15, Mg = 3–4, S = 0.3–0.5 in g kg−1, and B = 18–95, Cu = 1–2, Fe = 46–96, Mn = 80–203, Zn = 1–40, Mo = 1.3–2.7, Ni = 0.1–0.4 in mg kg−1. [ABSTRACT FROM AUTHOR]

Published

2024

4. NPK fertilization for the first years of physic nut cultivated in two regions.

Author

Silva, Enilson de Barros, Santos, Lauana Lopes dos, Grazziotti, Paulo Henrique, Bezerra, Iracema Raquel Santos, Souza, Willian Cleisson Lopes de, Miranda, Li Chaves, Santos, Ângela Aparecida, Silva, Wesley Costa, and Uane, Bento Gil

Subjects

*OILSEED plants, *MINERALS in nutrition, *PLANT growth, *CROP growth, *OILSEEDS

Abstract

The physic nut is an oilseed plant that has stood out as an alternative source for biodiesel. However, using it in this way requires determining the edaphoclimatic conditions and adequate fertilization to guarantee maximum productivity. This study objectived to evaluate and establish adequate rates of Nitrogen (N), Phosphorus (P), Potassium (K) to maximize the growth and productivity of physic nut in two edaphoclimatic conditions. Two experiments were performed over two consecutive years, one under Quartzarenic Neosol in the municipality of Diamantina and the other under Red-Yellow Latosol in the municipality of Governador Valadares. The treatments comprised rates of N: 0, 25, 50, 100 kg ha−1; P: 0, 35, 70, 140 kg ha−1; and K: 0, 40, 80, 160 kg ha−1. Plant growth was evaluated every 30 days until flowering. Seed and oil productivity was also assessed, with one harvest in Diamantina and two harvests in Governador Valadares. The edaphoclimatic condition of Governador Valadares was a determining factor in providing greater growth and productivity of the physic nut when compared to that of Diamantina. The application of N rates was unnecessary for the growth and productivity of the physic nut in Diamantina. Thus, phosphate fertilization was unnecessary in Governador Valadares and potassium fertilization was unnecessary for both regions. In Diamantina, 84 kg ha−1 and 87 kg ha−1 of P is recommended for growth and maximum productivity, respectively. Whereas, in Governador Valadares, 49 kg ha−1 and 55 kg ha−1 of N is recommended for growth and maximum crop productivity, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

5. Comparison and Evaluation of the Performance of the Mineral Mix Supplemented Diet for Asian Seabass (Lates calcarifer) Culture in Fresh Water-based Recirculating Aquaculture System.

Author

Moses, T. L. S. Samuel, Ahilan, B., Chidambaram, P., Felix, N., and Jayakumar, N.

Abstract

Background: The major minerals required by fish are calcium, phosphorus, manganese, sodium, chloride, potassium, chlorine, sulfur, selenium and magnesium. Even though we know that fish requires minerals, the quantity required is not studied in combination. In this study, an experiment was carried out to as certain the concentration of 8 minerals mentioned above in the feed in a fixed concentration of calcium and phosphorus at a 1% level of supplementation. This experiment provides valuable information based on growth data, biochemical parameters and hematological parameters. Methods: The experiment was carried out for 60 days in a 500-liter PE tank fitted with a Recirculating Aquaculture System and fed with a mineral mix of eight macro and micro minerals from 0.1% to 1% in triplicates. The mineral analysis was carried out using AAS, biochemistry analyzer was used for biochemical and the hematology analysis was used for blood parameter analysis. Result: The results show that mineral mix with 8 macro and micro minerals such as manganese, sodium, chloride, potassium, chlorine, sulfur, selenium and magnesium is required at 0.8%. The growth parameters, biochemical analysis and blood parameters confirm the results. [ABSTRACT FROM AUTHOR]

Published

2024

6. Saga of Soggy Sauerkraut.

Author

Harle, Dieter, McNeill, Michael J., Huber, Don M., Maney, Michael, Cano, Raul J., and Carlin, Martha

Subjects

*ORGANIC farming, *SANDY loam soils, *POULTRY manure, *LOAM soils, *SILT loam, *CABBAGE, *GLYPHOSATE

Abstract

The creation of undesirable (soggy) sauerkraut resulted in the loss of $1,000,000 worth of organic sauerkraut in 2022, which prompted a multistep investigation of the cause and potential solution. The cause of this condition has been previously reported as unique fermentation conditions and the lack of key trace nutrients essential for cabbage (Brassica oleracea var. capitata) cell wall integrity. Because the condition was limited to organic sauerkraut in 2022, this investigation initially focused on differences in fermentation conditions between organic and conventional sauerkraut. No differences in fermentation conditions accounted for the condition; therefore, attention was focused on analyzing the mineral content of cabbage grown for sauerkraut production that pinpointed a deficiency in critical micronutrients such as iron, copper, manganese, boron, and zinc. This deficiency was traced to the use of poultry manure that was contaminated with glyphosate residue from conventionally fed turkeys and chickens that consumed genetically engineered (GE) feed and used as the fertilizer for organic cabbage production. The presence of glyphosate, a potent mineral chelator and antibiotic, was identified as a significant factor that impairs the absorption and physiological function of essential minerals in the shikimate metabolic pathway whereby cell walls and lignin are produced, thus compromising the structural quality of the sauerkraut. After this discovery, the study progressed to evaluate various remediation strategies aimed at eliminating glyphosate from the soil and restoring nutrient uptake. Corn grain and silage were selected as the test crops for this phase. Among the tested remediation solutions were raw sauerkraut juice containing Lactobacillus plantarum, which is reported to degrade glyphosate in the rumen of dairy cows and two patented proprietary microbial mixtures, PB027 and PB027SK, that degrade glyphosate by all three of the known metabolic pathways. These treatments were specifically formulated to degrade residual glyphosate in the soil. The results showed that these interventions could reduce soil glyphosate levels by 80% to 90% within 6 to 7 months to significantly enhance both the yield and quality of corn grain and silage. The increase in corn grain yield from glyphosate degradation on the Shiocton silt loam soil was 907.89 kg·ha-1 (13.5 bushels/acre). The increase in yield on the irrigated Kidder sandy loam soil was quantified at 726.31 kg·ha-1 (10.8 bushels/acre) for corn grain and 6.62 t·ha-1 (2.68 t/acre) for silage, with an additional improvement in silage feed quality beneficial for milk production. The findings underscore the importance of addressing both micronutrient sufficiency and glyphosate residue in soil to ensure the optimal growth of cabbage and the quality of sauerkraut produced. By successfully identifying manure as a subtle source of nutrient immobilization and implementing effective soil remediation techniques, this research highlights a clear path forward for improving crop yield and quality to ultimately enhance the structural integrity and consumer acceptance of sauerkraut. This study has broader applications for the nutritional content and crop yields of many organic crops that use conventional poultry and animal manures that may contain glyphosate in desiccated plant tissues or GE feeding operations. [ABSTRACT FROM AUTHOR]

Published

2024

7. Mining Tailings Effects on Soil Quality and Performance of Two Native Species of Atlantic Forest: Implications for Restoration.

Author

Araújo, Bárbara Dias, Maia, Renata A., Barbosa, Milton, Silva, Thamara F., Modolo, Luzia Valentina, Negreiros, Daniel, and Fernandes, Geraldo Wilson

Subjects

IRON mining, HEAVY metals, NATIVE species, DAM failures, SEEDLING quality

Abstract

Mining activities significantly contribute to environmental pollution by releasing chemical contaminants into ecosystems, making natural recovery challenging. In this study, we amended the mining tailings from the Fundão dam with reference soil to simulate the heterogeneity of tailings concentrations to which native species are exposed. We aimed to identify the tailings concentration that best supports the development of two native species, Deguelia costata and Peltophorum dubium. Our results showed that substrates with lower concentration of tailings had an increase in organic matter content and higher acidity. In contrast, substrates with higher tailings concentration showed increased levels of toxic metals; yet these metals seemed not to be readily available to plants, as evidenced by the enhanced biomass accumulation and improved seedling quality in these subtracts. Conversely, the reference soil, being nutritionally deficient and acidic, may have led to increased absorption of toxic metals by the plants. This resulted in reduced growth and increased activity of antioxidant enzymes and synthesis of flavonoids. Both species selectively accumulated iron in the roots and manganese in the leaves, without reaching phytotoxic levels. The findings unequivocally demonstrate that D. costata and P. dubium exhibited remarkable resilience by successfully thriving and growing in highly contaminated substrates (up to 100% mining tailings). Hence, both D. costata and P. dubium prove to be highly suitable candidates for the restoration of areas devastated by iron mining activities. [ABSTRACT FROM AUTHOR]

Published

2024

8. Reduced Fertilization and Magnesium Supplementation: Modulating Fruit Quality in Honey Pomelo (Citrus maxima (Burm.) Merr.).

Author

Su, Da, Jiang, Yunfei, Song, Biao, Wu, Zhaozheng, Yan, Xiaojun, He, Zhiyuan, Ye, Delian, Ou, Jie, Zeng, Yingzhe, and Wu, Liangquan

Subjects

PHYTIC acid, POMELO, FRUIT flavors & odors, ORGANIC acids, FRUIT quality, PHENOLIC acids, CITRIC acid

Abstract

The excessive use of chemical fertilizers in the Guanxi honey pomelo production area has led to severe soil acidification and magnesium (Mg) deficiency, adversely affecting pomelo fruit quality. To address this issue, an integrated nutrient optimization model crucial for ensuring the sustainable and environmentally friendly development of the Guanxi honey pomelo industry has been explored. In a three-year experiment, two fertilizer treatments were implemented: a farmer fertilizer practice (FP) and an NPK reduction plus foliar Mg fertilizer (OPT + fMg). We investigated the impact of this integrated optimized fertilization measure on pomelo fruit quality from three aspects: flavor (sugars and organic acids), nutrition (vitamin C and mineral elements), and antioxidant properties (phenolics, flavonoids, and phytic acid). The results revealed that the OPT + fMg treatment improved fruit flavor by reducing acidity (titratable acid, citric acid, and quinine), while having a minimal impact on sugar components (sucrose, fructose, and glucose). Additionally, the OPT + fMg treatment increased the total phenolics, total flavonoids, and phytic acid in the fruit peel, enhancing its potential antioxidant quality. However, the OPT + fMg treatment reduced the mineral nutrient quality (excluding calcium) in the fruit. As for the fruit developmental period, the OPT + fMg treatment significantly increased the total flavonoid concentration in the peel from the mid-expansion fruit stage, followed by notable increases in phytic acid in the peel during the mid-to-late expansion fruit stage. The total phenolic concentration in the peel significantly rose only during the late fruit development stage. The most pronounced effect was observed on phytic acid in both peel and pulp. The influence of the OPT + fMg treatment on the mineral nutrients (excluding calcium) primarily occurred during the mid-to-late expansion fruit stage. Overall, the OPT + fMg treatment significantly improved the comprehensive nutritional quality of pomelo fruit, providing valuable insights for scientifically reducing fertilizer application while enhancing fruit quality. [ABSTRACT FROM AUTHOR]

Published

2024

9. Seed Priming with Iron Oxide Nanoparticles Ameliorates As Toxicity by Decreasing Organic Acid Exudation Pattern and Modulating Specific Gene Expression in Rapeseed (Brassica napus L.).

Author

Alshegaihi, Rana M., Mfarrej, Manar Fawzi Bani, Alatawi, Aishah, Alwutayd, Khairiah Mubarak, Albalawi, Salem, Saleem, Saba, Saleem, Muhammad Hamzah, Sarfraz, Wajiha, Ali, Shafaqat, and Abeed, Amany H. A.

Subjects

IRON oxide nanoparticles, ORGANIC acids, HEAVY minerals, EXUDATION (Botany), CROP growth

Abstract

Nanotechnology represents an innovative approach to ameliorating abiotic stress in oilseed crops, with the application of iron oxide nanoparticles (FeO−NPs) gaining notable popularity recently. Therefore, we have utilized FeO−NPs as an alleviating agent on an oilseed crop, specifically rapeseed (Brassica napus L.), grown in soil with varying levels of arsenic (As). This study investigates various growth−related attributes, the efficiency of the photosynthetic machinery, indicators of oxidative stress, and responses of both enzymatic and non-enzymatic antioxidants, along with their specific gene expression, sugar content, organic acids exudation pattern and As accumulation in different parts of the plant. Our findings indicated that soil contaminated with As reduced crop growth, photosynthetic efficiency, and nutritional status in plants, while simultaneously enhancing oxidative stress indicators, organic acid exudation, activity of both enzymatic and non-enzymatic antioxidants and their related gene expressions, and endogenous As content in the shoots and roots of B. napus. Moreover, increasing levels of As in the soil caused a signifcant increase in proline and organic acids exudation pattern. However, the exogenous application of FeO−NPs enhanced plant growth and the photosynthetic rate in B. napus by boosting the antioxidant system and mineral status, and by reducing the concentrations of oxidative stress biomarkers, organic acids, and As accumulation in both roots and shoots. Hence, this study suggests that seed priming with FeO−NPs is an effective technique that can be employed to fortify nutrients and mitigate metal toxicity in areas polluted with metals. [ABSTRACT FROM AUTHOR]

Published

2024

10. Soil- and Foliar-Applied Silicon and Nitrogen Supply Affect Nutrient Uptake, Allocation, and Stoichiometry in Arabica Coffee Plants.

Author

Parecido, Renan J., Soratto, Rogério P., Perdoná, Marcos J., and Gitari, Harun I.

Abstract

Silicon (Si) application may affect the plant response to nitrogen (N), possibly by changing the uptake, concentration, and partitioning of nutrients in plant tissues; however, this has not yet been proven in Arabica coffee plants. The effects of Si application methods [no Si, soil-applied soluble Si (168 mg Si L−1), and foliar-applied soluble Si (two application of 2 mg Si plant−1)] and N levels (0 and 80 mg N L−1) on biomass production and partitioning and uptake, partitioning, and stoichiometry of nutrients and Si in young Arabica coffee plants grown under greenhouse conditions were evaluated. Nitrogen fertilization increased the biomass production and uptake of all nutrients; however, reduced the concentrations of K, Ca, Mg, S, Mn, and Si in the leaves, Si in the stems, and K, Mg, and S in the roots of coffee plants as a dilution effect. In the presence of N, soil-applied Si increased the concentrations of Zn in the leaves and Ca and Si in the stems, the uptake of K, S, and Si, and the Si:N ratio. Foliar-applied Si increased the concentrations of N, P, K, and Zn in the leaves and Ca and Si in the stems, as well as the total uptake of K and Si and the Si:N ratio in coffee plants, being more evident in the N fertilization presence. This study unraveled that, especially when it was soil-applied, Si altered the nutrient uptake, allocation, and stoichiometric ratios with N, with a consequent increase in biomass production of young coffee plants fertilized with N. [ABSTRACT FROM AUTHOR]

Published

2025

11. Physiological alterations and genotoxic damage under combined aluminum and cadmium treatments in Bryophyllum daigremontianum clones.

Author

Yazicioglu, Hulya, Hocaoglu-Ozyigit, Asli, Ucar, Bihter, Yolcu, Seher, Yalcin, Ibrahim Ertugrul, Suner, Salim, and Ozyigit, Ibrahim Ilker

Abstract

Background: Cadmium (Cd) is one of the most important stress factors in plants, with its high mobility in soils, ease of uptake by plants and toxicity at low concentrations. Aluminum (Al) is another phytotoxic metal, the accumulation of which is a crucial agricultural complication for plants, especially in acidic soils. Methods and results: In this study, Bryophyllum daigremontianum clone plantlets were obtained from bulbiferous spurs of a mother plant and separated into four different groups and watered with Hoagland solution and mixtures containing 0, 50, 100, and 200 µM of AlCl3 and CdCl2 each for 75 days. Control groups were maintained under the same conditions without Al and Cd treatment. To simulate acidic soil conditions typical of environments where Al toxicity is prevalent, the soil pH was adjusted to 4.5 by spraying the sulphuric acid (0.2%) with 2-day intervals after each irrigation day. After harvesting, growth parameters such as shoot length and thickness, root, shoot and leaf fresh and dry weights were measured, along with physiological parameters like mineral nutrient status, total protein, and photosynthetic pigment concentrations (chlorophyll a, b, a/b, total chlorophyll, and carotenoid) in both control and experimental groups of B. daigremontianum clones. In response to Al and Cd applications, the plant height, shoot thickness and carotenoid levels were declined, whereas the increments were found in leaf/shoot/root fresh weight, root dry weight, and total protein content. Moreover, differences in genomic alterations were investigated using 21 ISSR and 19 RAPD markers, which both have been used extensively as genetic markers to specify phylogenetic relationships among different cultivars as well as stress-dependent genetic alterations. RAPD primers were used due to their arbitrary sequences and the unknown genome sequence of the plant material used. In contrast, ISSR primers were preferred for a genome-wide genotoxic effect scan via non-arbitrary and more common genetic markers. Distinct types of band polymorphisms detected via RAPD and ISSR markers include band loss, and new band formation under a combination of Al and Cd stress. 17 ISSR and 14 RAPD primers generated clear electrophoretic bands. Conclusion: The study revealed that combined application of Al and Cd affect B. daigremontianum clones in terms of growth, physiology and genotoxicity related to the increasing concentrations. [ABSTRACT FROM AUTHOR]

Published

2024

12. Ionome composition influence wheat yield on saline and calcareous soils: the case of <italic>Triticum aestivum</italic> L. var. ‘Sirvan’.

Author

Hosseini, Seyed Mashaallah and Tadayon, Mohammad Saeed

Abstract

AbstractSoil pH and salinity significantly affect plant biogeochemical safety, ionome, and nutritional balance. Under such conditions, we established local compositional nutrient diagnosis standards using the centered log ratio (CNDclr*) means and standard deviations of the ionome from high-yield and nutritionally balanced ‘Sirvan’ wheat specimens (Triticum aestivum L. var. ‘Sirvan’). Critical nutrient indices (I2X) and the critical yield of the wheat fields were determined based on the Cate-Nelson method. The Cate-Nelson model indicates that for yields above 6974.9 kg/ha, the CNDr2 index value must be below 17.645. According to clr indices the most critical leaf nutritional indices influencing the performance of low-yield ‘Sirvan’ wheat fields on calcareous and saline soils were identified. Among the leaf nutrient indices in low-yield populations of ‘Sirvan’ wheat fields, increasing leaf Ca, P, Mn, Cu, N, and Zn, while decreasing Mg, B, and K, and bringing them closer to zero within the range of nutritional balance, can have significant effects on yield under saline and calcareous soil conditions, countering the negative impact of high pH due to alkaline salt stress. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effect of Water Deficit on Secondary Metabolites and Nutrient Content on Forage Sorghum.

Author

Cunha, Tayna Lemos de Oliveira, Santana, Dthenifer Cordeiro, Theodoro, Gustavo de Faria, Seron, Ana Carina da Silva Cândido, Cunha, Fernando França da, Teodoro, Paulo Eduardo, Teodoro, Larissa Pereira Ribeiro, Ítavo, Luis Carlos Vinhas, Campos, Cid Naudi Silva, Silva, Manoel Gustavo Paranhos da, and Montaño, Alejandro Soares

Subjects

*FEED analysis, *METABOLITES, *CROPS, *WATER levels, *AGRICULTURAL development, *SORGHUM

Abstract

Agronomic properties are more likely to be impacted by water deficits that affect the nutrient uptake and production of secondary metabolites based on their timing and intensity. The aim of this study was to assess the effects of the water deficit on the nutritional quality of forage sorghum (Sorghum bicolor) hybrids. For that purpose, a factorial, completely randomized experiment was conducted by considering three forage sorghum hybrids (AGRI 002-E, BREVANT SS318, and BRS 658) and two levels of evapotranspiration water replacement (50% and 100% of ETc). Parameters relating to water consumption, secondary metabolites (isoflavones daidzein, daidzin, genistein, and genistin), leaf nutrients (P, K, Ca, Mg, S, Mn, and Zn), and bromatological attributes (dry matter, crude protein, neutral detergent fiber, and mineral material) were evaluated at the end of the crop cycle. Isoflavone levels differed between the hybrids and were highest in water-deficient sorghum. There was a significant interaction between the factors only for the daidzin. The leaf content of the other compounds was influenced either by hybrids (genistein) or by the replacement of evapotranspired water levels (daidzein). The leaf content of P and S was influenced by the interaction between the factors, while the levels of K, Ca, and Mg were influenced by the effect of a single factor. The leaf contents of Mn and Zn were not influenced by the treatments. There was a difference between the hybrids for dry mass and crude protein contents, and hybrids x water deficit was only significant for dry mass. The hybrids Brevant SS318 and BRS 658 had the highest crude protein. The presented results are novel and demonstrate that water deficits can significantly affect the levels of secondary metabolites and the nutritional quality of forage sorghum, depending on the hybrid. The mentioned indices are important parameters for evaluating the nutritional quality and development of agricultural crops, particularly in response to adverse environmental conditions such as water stress. [ABSTRACT FROM AUTHOR]

Published

2024

14. Nutrient accumulations and efficiencies for maximum blackberry fruit production.

Author

de Barros Silva, Enilson, Lima, Ramony Cristina, Oliveira Gaurat, Jéssica, Medeiros Braga Neto, Ari, Monteiro da Cruz, Maria do Céu, Dias Gonçalves, Emerson, Costa Silva, Wesley, de Oliveira Silva, Luiz Fernando, Abreu Moura, Pedro Henrique, and Macedo de Souza, Shirley

Subjects

*FRUIT, *ACID soils, *BLACKBERRIES, *NUTRITIONAL requirements, *SOIL acidity, *CULTIVARS

Abstract

Blackberry is grown in a wide range of soil pH, and it is known that the adequacy of soil pH is essential for plants to express their maximum nutritional efficiencies and, consequently, reach their maximum productive potential. Thus, the objective was to evaluate the nutritional accumulations and efficiencies for maximum fruit production. The experiment under greenhouse conditions was carried out in a randomized block design followed by a 4 × 2 × 4 factorial scheme with three repetitions. The evaluated factors were four blackberry cultivars (Tupy, Brazos, Guarani, and Xavante) grown in two types of acidic soils (Typical Hapludox [TH] and Rhodic Hapludox [RH]) to which four rates of dolomitic limestone (0, 1.5, 3.0, and 6.0 Mg ha−1) were applied. Fruit production and nutrient accumulation in the fruits, leaves, stems, and roots of the plants were evaluated, as well as the nutritional efficiency of each cultivar. The blackberry cultivar Tupy has been the most productive, independent of the liming rate. Blackberry cultivars have shown differences in nutrient accumulation and efficiencies for maximum fruit production, and they also have distinct nutritional requirements. [ABSTRACT FROM AUTHOR]

Published

2024

15. Recovery of Scots Pine Seedlings from Long-Term Zinc Toxicity.

Author

Ivanov, Yury V., Ivanova, Alexandra I., Kartashov, Alexander V., and Kuznetsov, Vladimir V.

Subjects

COPPER, ROOT growth, WEIGHT gain, PHOTOSYNTHETIC pigments, MINERALS in nutrition

Abstract

We studied the recovery of the growth and physiological parameters of Scots pine seedlings after long-term zinc toxicity. The removal of excess zinc from the nutrient solution resulted in the rapid recovery of primary root growth but did not promote the initiation and growth of lateral roots. The recovery of root growth was accompanied by the rapid uptake of manganese, magnesium, and copper. Despite the maximum rate of manganese uptake by the roots, the manganese content in the needles of the recovering plants did not reach control values during the 28 days of the experiment, unlike magnesium, iron, and copper. In general, the recovery of ion homeostasis eliminated all of the negative effects on the photosynthetic pigment content in the needles. However, these changes, along with recovery of the water content in the needles, were not accompanied by an increase in the weight gain of the recovering seedlings compared with that of the Zn-stressed seedlings. The increased accumulation of phenolic compounds in the needles persisted for a long period after excess zinc was removed from the nutrient solution. The decreased lignin content in the roots and needles is a characteristic feature of Zn-stressed plants. Moreover, the removal of excess zinc from the nutrient solution did not lead to an increase in the lignin content in the organs. [ABSTRACT FROM AUTHOR]

Published

2024

16. The centrality of redox regulation and sensing of reactive oxygen species in abiotic and biotic stress acclimatization.

Author

Denjalli, Ibadete, Knieper, Madita, Uthoff, Jana, Vogelsang, Lara, Kumar, Vijay, Seidel, Thorsten, and Dietz, Karl-Josef

Subjects

*REACTIVE oxygen species, *PLANT evolution, *CELL imaging, *GENETIC transcription, *DEFICIENCY diseases, *ARSENIC

Abstract

During land plant evolution, the number of genes encoding for components of the thiol redox regulatory network and the generator systems of reactive oxygen species (ROS) expanded, tentatively indicating that they have a role in tailored environmental acclimatization. This hypothesis has been validated both experimentally and theoretically during the last few decades. Recent developments of dynamic redox-sensitive GFP (roGFP)-based in vivo sensors for H2O2 and the redox potential of the glutathione pool have paved the way for dissecting the kinetics changes that occur in these crucial parameters in response to environmental stressors. The versatile cellular redox sensory and response regulatory system monitors alterations in redox metabolism and controls the activity of redox target proteins, and thereby affects most, if not all, cellular processes ranging from transcription to translation and metabolism. This review uses examples to describe the role of the redox- and ROS-dependent regulatory network in realising the appropriate responses to diverse environmental stresses. The selected case studies concern different environmental challenges, namely excess excitation energy, the heavy metal cadmium and the metalloid arsenic, nitrogen or phosphate shortages as examples for nutrient deficiency, wounding, and nematode infestation. Each challenge affects the redox-regulatory and ROS network, but our present state of knowledge also points toward pressing questions that remain open in relation to the translation of redox regulation to environmental acclimatization. [ABSTRACT FROM AUTHOR]

Published

2024

17. Castor Meal and Ground Hydrothermalized Phonolite Optimize Sweet Potato Nutrition, Yield, and Quality.

Author

Parecido, Renan J., Soratto, Rogério P., Fernandes, Adalton M., Blanes, Mayara C., Fidelis, Luis G., Gitari, Harun I., and Dutra, Sérgio G.

Subjects

SWEET potatoes, POTASSIUM fertilizers, PHONOLITE, SYNTHETIC fertilizers, ORGANIC fertilizers, FERTILIZER application

Abstract

To assess the effect of pure castor meal and a mixture of castor meal with ground hydrothermalized phonolite rock (CM+HP mixture) in providing nutrients, particularly N and K, and optimizing yield and quality of sweet potato, a field experiment was conducted using a randomized block design. Treatments were the absence and presence of synthetic N and K fertilizers (ammonium nitrate and KCl) combined with rates of organic fertilizers (1.2 and 2.4 Mg ha−1 of castor meal, 2.25 and 4.5 Mg ha−1 of CM+HP mixture, plus a treatment without organic fertilizers). The CM+HP mixture maintained adequate N and K status in plant leaves. Organic fertilizers increased the number of storage roots per plant and the sweetness of the storage roots, while synthetic fertilizers increased the storage root mean weight. Castor meal combined with synthetic fertilizers improved soil health (increased organic matter and enzyme activity in the soil). The combined application of synthetic fertilizers with 2.4 Mg ha−1 of castor meal or 4.5 Mg ha−1 of CM+HP mixture had the greatest benefit on storage root yield, with an average increase of 128% (10.9 Mg ha−1) on marketable storage root yield, and the nutrient removal compared with the sole application of organic fertilizers. [ABSTRACT FROM AUTHOR]

Published

2024

18. Physicochemical characteristics of pomegranate fruits as affected by foliar application of potassium and zinc.

Author

ValizadehKaji, Babak and Naeini, Mohammad Reza

Subjects

*POMEGRANATE, *FRUIT, *FRUIT yield, *FLOWERING time, *FLAVONOIDS, *POTASSIUM

Abstract

Foliar application of mineral nutrients can considerably improve fruit yield and quality. In this study, the effects of K and Zn application by spraying on leaf mineral contents, and some physical and biochemical characteristics of pomegranate fruits cv. 'Malas Saveh' were investigated. The mineral treatments were three concentrations of K2SO4 (0, 1, and 2%) and three concentrations of ZnSO4 (0, 0.5, and 1%). The solutions were applied in 2020–2021 and in four times: the first application was during the time of flowering and rest three applications were applied at two-week intervals. The results showed that leaves of trees fed with different concentrations of K2SO4 and ZnSO4 accumulated higher concentrations of N, P K, Zn, Fe, and Mn than those untreated. Pomegranate trees treated with the mineral treatments had higher chlorophyll a and total chlorophyll. Applying most mineral treatments, especially 2% K2SO4+0.5% ZnSO4, significantly increased the fruit yield, fruit diameter, fruit length, aril percentage, aril/skin, the weight of 100 arils, and juice content of 100 g arils, but reduced the cracking percentage, skin thickness, skin percentage and firmness of fruits. Moreover, fruits of pomegranate trees treated with the most mineral treatments and especially 2% K2SO4+0.5% ZnSO4, showed a greater level of TSS (total soluble solids), TSS/TA (total soluble solids/titratable acidity), anthocyanin, total phenol, flavonoid, antioxidant activity, and vitamin C, and a lower level of TA. The study results evidenced that K and Zn application by spraying has a high potential for improving fruit yield and quality of pomegranate. [ABSTRACT FROM AUTHOR]

Published

2024

19. Liming and phosphate fertilization in seedlings production of cagaiteira.

Author

Calsavara Rocha, Camila, Alves da Silva, Gilma, de Oliveira Ferreira, Eric Victor, Moraes Rufini, José Carlos, de Almeida Vasconcelos, Aline, and Pereira Fagundes, Miriã Cristina

Subjects

*SEEDLING quality, *MINERALS in nutrition, *CROP management, *FOOD industry, *CERRADOS

Abstract

The cagaiteira (Eugenia dysenterica DC.) is an important fruit species native from Brazilian Cerrado that has economic potential for food and pharmaceutical sectors and the recovery of degraded areas. Knowledge about crop management is still limited, including fertilization methods. This study aimed to evaluate the effect of lime and phosphorus (P) application on nutrition, growth, dry matter production and physiological aspects of cagaiteira seedlings. The experiment was conducted in a greenhouse, using a randomized block design with three replications, in a 5x4 factorial scheme, five base saturation levels (24.5, 40.0, 60.0, 80.0 and 100.0%) and four P rates (0, 100, 200 and 400 mg dm-3). At 180 days after transplanting, gas exchange, biometrics (diameter, height and leaf area), dry mass production, seedling quality (Dickson Quality Index - DQI) and nutrient content were evaluated. The results were subjected to analysis of variance (p<0.05) and regression model adjustments. The growth and physiology of Eugenia dysenterica DC seedlings are not influenced by liming; however, the application of lime positively influences the B content in the plants. Phosphate fertilization increases growth in height, with an estimated rate of 245 mg dm-3 of P indicated to produce cagaiteira seedlings, since at this dose is estimated that the plant will be taller. In general, cagaiteira proves to be a species that develops well in acid soil conditions and with low availability of P. [ABSTRACT FROM AUTHOR]

Published

2024

20. Bulb Growth Parameters of Wild Geophyte, Giant Snowdrop (Galanthus elwesii Hook. f.) in Different Media and Nutrient Solution Recipes.

Author

Zeybekoğlu, Emrah

Subjects

*HYDROPONICS, *BULBS (Plants), *MINERALS in nutrition, *SNOWDROPS, *WILD flowers

Abstract

Giant snowdrop (Galanthus elwesii Hook. f.) is reported on CITES lists as the most important wild-collected export flower bulb of Turkey. After the destruction caused by extensive collecting for many years, collection and trade have been controlled by the government since the late 1980's. Export quotas are annually set by a technical committee, following field inspections by scientific teams. Small bulbs (under-sized) are also unintentionally collected from nature together with marketable sized bulbs (> 4 cm). Low success rate at cultivation of field grown snowdrop and loss of these small bulbs reveals the necessity of the studies on soilless culture. This study aimed to select the suitable growing media and mineral nutrition for snowdrop bulb production. Under-sized (unmarketable) bulbs of Galanthus elwesii Hook. f. were cultivated in four different growing media (perlite, coco-peat, soil, or spent mushroom compost + perlite) with four different nutrient solutions. The growing media affected most of the investigated parameters (sprouting time, sprouting ratio, total weight and increase ratio, number of harvested bulbs, and bulb grades). No significant effect of nutrient solutions was determined on the parameters. Spent mushroom compost + perlite appeared to be the most effective growing media. [ABSTRACT FROM AUTHOR]

Published

2024

21. Rootstocks on the Nutritional Status of Seedlings of the Main Mango Cultivars of the São Francisco Valley.

Author

Gomes, Fernando Antonio Lima, Santos, Adriana da Silva, Cavalcante, Ítalo Herbert Lucena, Cristina Rezende Zuffo Borges, Monica, Tatiane Lima Silva, Maiara, Silva de Morais, Whesley, Lobo, Jackson Teixeira, and Lima, Augusto Miguel Nascimento

Subjects

*MANGO, *NUTRITIONAL status, *ROOTSTOCKS, *CULTIVARS, *AGRICULTURE, *FRUIT growing

Abstract

Mango is the fruit most exported by Brazil, with a significant increase in cultivated area in recent years. However, the orchards have been made up of seedlings produced by the grafting process, but without identifying the most suitable rootstock for each cultivar, which affects the competitiveness of mango farming, since the rootstock affects, among other factors, the growth and nutrient absorption from the canopy cultivar. The objective of this study was to evaluate the nutritional status and mineral nutrition of 'Palmer,' 'Tommy Atkins,' 'Kent' and 'Keitt' mango seedlings grafted onto the polyembryonic rootstocks Capucho, Coquinho and Espada. The experiment was carried out between October 2019 and May 2020 at the Fruit Growing Nursery of the Agricultural Sciences Campus of the Federal University of Vale do São Francisco (UNIVASF), in Petrolina-PE, in a 3 × 4 factorial scheme, corresponding to three polyembryonic rootstocks (Espada, Capucho and Coquinho) and four crown cultivars ('Palmer,' 'Keitt,' 'Kent' and 'Tommy Atkins'), with five replications of ten plants each. Leaf contents of macronutrients (N, P, K, Ca), micronutrients (Cu and Fe) and silicon depend on the scion (Tommy Atkins, Palmer, Keitt and Kent) x rootstock (Espada, Capucho and Conquinho) combination. The leaf contents of S, Mg, B, Mn and Mo in the scion are affected by the rootstock adopted for mango propagation In general, for macro and micronutrient absorption purposes, the sword rootstock and the 'Keitt' cultivar are the best combination for most of the variables analyzed in the research. The effect of rootstock on the nutritional status of scion cultivars (Tommy Atkins, Palmer, Keitt and Kent) must be taken into consideration when interpreting crop nutrition. [ABSTRACT FROM AUTHOR]

Published

2024

22. Different ectomycorrhizal fungal species impact poplar growth but not phosphorus utilization under low P supply.

Author

Shi, Huili, Lipka, Ulrike, and Polle, Andrea

Subjects

*BIOMASS production, *TREE growth, *PHOTOSYNTHETIC rates, *PLANT growth, *MINERALS in nutrition

Abstract

Tree growth is often limited by phosphorus (P) availability. The trade-off between P homeostasis and growth is unknown. Ectomycorrhizal fungi (EMF) facilitate P availability but this trait varies among different fungal species and isolates. Here, we tested the hypotheses that (i) colonization with EMF boosts plant growth under P-limited conditions and that (ii) the poplars show P homeostasis because increased P uptake is used for growth and not for P accumulation in the tissues. We used two P treatments (high phosphate [HP]: 64 μM Pi, low phosphate [LP]: 0.64 μM Pi in the nutrient solution) and four fungal treatments (Paxillus involutus MAJ, Paxillus involutus NAU, Laccaria bicolor dikaryon LBD, Laccaria bicolor monokaryon LBM) in addition to non-inoculated poplar plants (NI) to measure growth, biomass, gas exchange and P contents. High phosphate (HP) stimulated growth compared with LP conditions. Poplars colonized with MAJ, NAU and NI showed higher growth and biomass production than those with LBD or LBM. Photosynthesis rates of poplars with lower biomass production were similar to or higher than those of plants with higher growth rates. The tissue concentrations of P were higher under HP than LP conditions and rarely affected by ectomycorrhizal colonization. Under LP, the plants produced 44% greater biomass per unit of P than under HP. At a given P supply, the tissue concentration was stable irrespective of the growth rate indicating P homeostasis. Laccaria bicolor caused growth inhibition, irrespective of P availability. These results suggest that in young poplars distinct species-specific ectomycorrhizal traits overshadowed potential growth benefits. [ABSTRACT FROM AUTHOR]

Published

2024

23. Genetic Variability and Phenotypic Correlations Study among Grain Quality Traits and Mineral Elements Concentrations in Colored and Non-Colored Rice (Oryza sativa L.).

Author

Rezk, Adel A., El-Malky, Mohamed M., Mohamed, Heba I., and El-Beltagi, Hossam S.

Subjects

GENOTYPES, GRAIN, NUTRITION, MINERALS, CALCIUM

Abstract

Twenty-four rice genotypes were examined to assess genetic variability, heritability, and correlations for seven-grain quality traits, eight nutritional elements, and protein. ANOVA revealed significant differences for the quality traits studied. For every trait under study, the phenotypic coefficient of variation was higher than the correspondence genotypic coefficient of variation. Heritability in a broad sense varied from 29.75% for grain length to 98.31% for the elongation trait. Hulling percentage recovery had a highly significant positive correlation with milling and head rice percentage. Consequently, milling percentage had a highly positive correlation with head rice percentage. In amylose percentage, all the genotypes belonged to low amylose except the Hassawi-1 variety, which had intermediate amylose content. Mineral nutrition contents of magnesium (Mg), sodium (Na), potassium (K), calcium (Ca), copper (Cu), manganese (Mn), zinc (Zn), iron (Fe), or protein percentage gave different variations for 24 rice genotypes under all the nutritional elements. Among the 24 genotypes, ten rice genotypes–HighNutrient-1, HighNutrient-2, HighNutrient-9, HighNutrient-8, HighNutrient-3, Hassawi-2, HighNutrient-7, HighNutrient-6, Hassawi-1, and HighNutrient-4–had the highest heist value for all nutritional and protein contents, and could be used as a donor to improving new varieties. There was a positive and significant correlation between magnesium Mg, K, Zn and Fe. Consequently, K had a positive correlation with zinc Zn, Fe, and protein percentage. Clustering analysis was divided into two groups: the first group included all genotypes rich in nutrients, while the remaining genotypes with low nutritional content were included in the second group. [ABSTRACT FROM AUTHOR]

Published

2024

24. Mineral composition modulates Erwinia amylovora resistance in pear based on path analysis.

Author

Mertoğlu, Kerem, Evrenosoğlu, Yasemin, Akkurt, Emre, Yeşilbaş, Mücahit Furkan, and Gülmezoğlu, Nurdilek

Abstract

The effects of mineral composition (N, P, K, Mg, Fe, Cu, and Zn) against fire blight caused by Erwinia amylovora, the most devastating disease of pome fruits, was investigated in pear. Due to the transport physiology of minerals, the leaf contained higher concentrations of every mineral analyzed, especially macro-minerals (N, P, K, and Mg) compared to the fruit. Minerals obtained from the leaves were not statistically correlated with resistance to fire blight, however all the minerals examined in the fruit, except for K, were found to be significant. Increased P and Mg concentrations were associated with disease resistance, while N, Zn, Fe, and Cu were associated with susceptibility. Nitrogen-causing susceptibility exerted 61% of this impact through itself directly and was sharply distinguished from other mineral compounds. Furthermore, the indirect effect of nitrogen on disease susceptibility through Cu (39%), Zn (33%), and Fe (30%) was even higher than the direct effect of these minerals (21%, 24%, and 29%, respectively). The direct effects of P (13%) and Mg (10%), which are associated with an increase in resistance, were lower than the indirect effects (19% and 29%, respectively) due to their negative correlation with nitrogen, showing that the main effect of these minerals was in suppressing the negative effects of nitrogen on susceptibility by maintaining mineral balance. [ABSTRACT FROM AUTHOR]

Published

2024

25. Saga of Soggy Sauerkraut

Author

Dieter Harle, Michael J. McNeill, Don M. Huber, Michael Maney, Raul J. Cano, and Martha Carlin

Subjects

biological remediation, brassica oleracea var. capitata, cabbage, glyphosate lactobacillus plantarum, maize, mineral nutrition, organic, poultry manure, sauerkraut quality, soil residual glyphosate, Plant culture, SB1-1110

Abstract

The creation of undesirable (soggy) sauerkraut resulted in the loss of $1,000,000 worth of organic sauerkraut in 2022, which prompted a multistep investigation of the cause and potential solution. The cause of this condition has been previously reported as unique fermentation conditions and the lack of key trace nutrients essential for cabbage (Brassica oleracea var. capitata) cell wall integrity. Because the condition was limited to organic sauerkraut in 2022, this investigation initially focused on differences in fermentation conditions between organic and conventional sauerkraut. No differences in fermentation conditions accounted for the condition; therefore, attention was focused on analyzing the mineral content of cabbage grown for sauerkraut production that pinpointed a deficiency in critical micronutrients such as iron, copper, manganese, boron, and zinc. This deficiency was traced to the use of poultry manure that was contaminated with glyphosate residue from conventionally fed turkeys and chickens that consumed genetically engineered (GE) feed and used as the fertilizer for organic cabbage production. The presence of glyphosate, a potent mineral chelator and antibiotic, was identified as a significant factor that impairs the absorption and physiological function of essential minerals in the shikimate metabolic pathway whereby cell walls and lignin are produced, thus compromising the structural quality of the sauerkraut. After this discovery, the study progressed to evaluate various remediation strategies aimed at eliminating glyphosate from the soil and restoring nutrient uptake. Corn grain and silage were selected as the test crops for this phase. Among the tested remediation solutions were raw sauerkraut juice containing Lactobacillus plantarum, which is reported to degrade glyphosate in the rumen of dairy cows and two patented proprietary microbial mixtures, PB027 and PB027SK, that degrade glyphosate by all three of the known metabolic pathways. These treatments were specifically formulated to degrade residual glyphosate in the soil. The results showed that these interventions could reduce soil glyphosate levels by 80% to 90% within 6 to 7 months to significantly enhance both the yield and quality of corn grain and silage. The increase in corn grain yield from glyphosate degradation on the Shiocton silt loam soil was 907.89 kg·ha−1 (13.5 bushels/acre). The increase in yield on the irrigated Kidder sandy loam soil was quantified at 726.31 kg·ha−1 (10.8 bushels/acre) for corn grain and 6.62 t·ha−1 (2.68 t/acre) for silage, with an additional improvement in silage feed quality beneficial for milk production. The findings underscore the importance of addressing both micronutrient sufficiency and glyphosate residue in soil to ensure the optimal growth of cabbage and the quality of sauerkraut produced. By successfully identifying manure as a subtle source of nutrient immobilization and implementing effective soil remediation techniques, this research highlights a clear path forward for improving crop yield and quality to ultimately enhance the structural integrity and consumer acceptance of sauerkraut. This study has broader applications for the nutritional content and crop yields of many organic crops that use conventional poultry and animal manures that may contain glyphosate in desiccated plant tissues or GE feeding operations.

Published

2024

26. Coconut Sugar: Nutritive Potential and Prospects

Author

Ramesh, S. V., Sudharshana, S., Jacob, Anjitha, Shameena Beegum, P. P., Pandiselvam, R., Manikantan, M. R., Gopal, Murali, Hebbar, K. B., Ramesh, S.V., editor, and Praveen, Shelly, editor

Published

2024

27. Organic Trace Minerals in Ruminant Nutrition: Production, Reproduction, Health, Economics, and Environmental Implications

Author

Gowda, N. K. S., Pal, D. T., Dey, Debpriyo Kumar, Mahesh, M. S., editor, and Yata, Vinod Kumar, editor

Published

2024

28. Exploration and impact of Metlaoui-Gafsa phosphate rock amendment: the role of Serratia plymuthica BMA1 in phosphate solubilization, heavy metal rhizoaccumulation, and enhanced nutrition in Vicia faba L.

Author

Sai, Afef, Ben Younes, Sonia, Ellafi, Ali, Moula, Amel, Sánchez-Yañez, Juan Manuel, and Borgi, Mohamed Ali

Published

2024

29. Effects of Different Ratios of Coal Gangue and to Garden Soil Composite Substrates on the Growth and Physiology of Rhododendron Delavayi Franch. Seedlings

Author

He, Yuchunjie, Li, Ying, Li, Huie, and Guo, Qiqiang

Published

2024

30. Role played by arbuscular mycorrhizal fungi in amelioration of salinity stress: a review

Author

Pooja, Pooja, Tallapragada, Sridevi, Lamba, Ankisha, and Punia, Shweta

Published

2024

31. Selection of Suitable Methods for Sample Preparation and Desorbing Agents for Determination of Nutrient Contents in Scots Pine Roots.

Author

Ivanov, Y. V., Kartashov, A. V., and Ivanova, A. I.

Abstract

Determining the nutrient composition of woody plant roots is an important tool for studying the physiological response of trees to various environmental factors. Considering the complexity and labor intensity of collecting the roots of woody plants, especially coniferous plants, it is of particular importance to use a suitable method for the desorption of excess nutrients from the root surface to avoid the overestimation of nutrient content within the roots. In the present study, various methods for sample preparation of the roots of both Scots pine (Pinus sylvestris L.) seedlings grown in hydroculture with different aeration regimes and saplings grown in soil substrates were investigated to determine the contents of magnesium, potassium, calcium, phosphorus, iron, manganese, zinc and copper. The possibility of using root samples frozen in liquid nitrogen was also investigated. The effectiveness of different desorbing agents such as Na2-EDTA, dithionite-citrate-bicarbonate, CaCl2 and MES-Tris for nutrient removal from the root surface, as well as the duration of incubation, were studied. It was shown that desorption of nutrients from roots using EDTA is the preferred method when working with soil-grown roots. In the absence of iron-manganese plaques on the root surface, treatment of roots with DCB should not exceed 5-10 minutes to avoid ion leakage from root cells. If it is not possible to use any extraction methods, it is sufficient to mechanically remove the remaining soil particles from roots, rinse the roots with water and dry. However, this sample preparation method is not suitable for determining the iron content in roots. [ABSTRACT FROM AUTHOR]

Published

2024

32. Compositional Nutrient Diagnosis Methodology and Its Effectiveness to Identify Nutrient Levels in Yerba Mate (Ilex paraguariensis).

Author

Lisboa, Bruno Britto, Abichequer, André Dabdab, de São José, Jackson Freitas Brilhante, Moura-Bueno, Jean Michel, Brunetto, Gustavo, and Vargas, Luciano Kayser

Subjects

DIAGNOSIS methods, MATE plant, FOLIAR diagnosis, PRINCIPAL components analysis, COPPER

Abstract

Yerba mate is a forest species of both cultural and economic importance growing in the subtropical regions of South America, especially in the south of Brazil. Despite its importance, yerba mate has never received enough attention from researchers, so the nutritional sufficiency ranges and critical levels have not yet been determined. This research aimed to establish these parameters for yerba mate to enable its foliar diagnosis. A total of 167 leaf samples were collected from production fields located in the five yerba mate-growing regions in Rio Grande do Sul, and the leaf nutrients were determined by standard chemical methods. The yield of each production field was accessed, and the cutoff value separating low- and high-yield groups was calculated in 16.75 Mg ha−1. The multivariate compositional nutrient diagnosis (CND) standards were determined, and nutrient interactions were estimated by correlation and principal component analyses. There was no positive correlation between any single nutrient and yield, even in the high-yield population, evidencing that a higher yield is the outcome of the balance among all nutrients. Excess of B occurred in one-third of the low-yield samples, while deficiency of Cu and K occurred in one-fourth of these samples. Finally, we established the adequate leaf nutrient levels for yerba mate. [ABSTRACT FROM AUTHOR]

Published

2024

33. Effects of Salinity on 'Fino 95' Lemon Trees Inoculated with Arbuscular Mycorrhizal Fungi.

Author

Navarro, Josefa M., Pérez-Tornero, Olaya, and Morte, Asunción

Subjects

VESICULAR-arbuscular mycorrhizas, EFFECT of salt on plants, SALINITY, LEMON, MINERALS in nutrition, PLANT membranes

Abstract

An experiment was conducted with two-year-old 'Fino 95' lemon plants (Citrus limon Burm. f. cv. Fino) grafted on C. macrophylla (Citrus macrophylla Wester) to study the effects of salinity on plants inoculated with arbuscular mycorrhizal fungi (AMF). Half of the inoculated (+AM) and non-inoculated (−AM) plants were irrigated with half-strength Hoagland solution, and the remainder were inoculated with half-strength Hoagland solution + 30 mM NaCl. Ninety-eight days later, results showed that AMF had alleviated the negative effect of salinity on growth. Inoculation with AMF provided some protection against the damage that salinity caused on cellular membranes and improved the plant water status and turgor under saline conditions (Ψx and Π increased by 16% and 48%, respectively). The responses of mineral nutrition to salinity and AMF treatments were complex. P concentrations in the leaves and roots of +AM plants were lower than in those of −AM plants, but inoculation improved Ca2+ (by 20%), Mg2+ (24%), Fe2+ (21%), and Zn2+ (7%) nutrition in roots and also the Mg2+/Na+ ratio in leaves (33%), reducing the antagonistic effect of Na+ on Mg2+ nutrition in salt-treated plants. AMF could protect plants against salt stress through the maintenance of the gas exchange capacity and due to a better antioxidant response. All these positive effects of AMF contributed to mitigating the harmful effects of salinity stress on the plant growth performance of lemon trees grafted on C. macrophylla rootstock under salinity conditions. [ABSTRACT FROM AUTHOR]

Published

2024

34. Recent progress and potential future directions to enhance biological nitrogen fixation in faba bean (Vicia faba L.).

Author

Jithesh, Tamanna, James, Euan K., Iannetta, Pietro P. M., Howard, Becky, Dickin, Edward, and Monaghan, James M.

Subjects

FAVA bean, NITROGEN fixation, CROP management, SUSTAINABILITY, CROPPING systems, LEGUMES

Abstract

The necessity for sustainable agricultural practices has propelled a renewed interest in legumes such as faba bean (Vicia faba L.) as agents to help deliver increased diversity to cropped systems and provide an organic source of nitrogen (N). However, the increased cultivation of faba beans has proven recalcitrant worldwide as a result of low yields. So, it is hoped that increased and more stable yields would improve the commercial success of the crop and so the likelihood of cultivation. Enhancing biological N fixation (BNF) in faba beans holds promise not only to enhance and stabilize yields but also to increase residual N available to subsequent cereal crops grown on the same field. In this review, we cover recent progress in enhancing BNF in faba beans. Specifically, rhizobial inoculation and the optimization of fertilizer input and cropping systems have received the greatest attention in the literature. We also suggest directions for future research on the subject. In the short term, modification of crop management practices such as fertilizer and biochar input may offer the benefits of enhanced BNF. In the long term, natural variation in rhizobial strains and faba bean genotypes can be harnessed. Strategies must be optimized on a local scale to realize the greatest benefits. Future research must measure the most useful parameters and consider the economic cost of strategies alongside the advantages of enhanced BNF. [ABSTRACT FROM AUTHOR]

Published

2024

35. Appraisal of the Diagnosis and Recommendation Integrated System and Nutrient Status of Pineapple (Ananas Comosus L.) Growing Fields.

Author

Khuong, Nguyen Quoc, Anh, Nguyen Huynh Minh, Thanh Quang, Le, and Xuan, Ly Ngoc Thanh

Subjects

*PINEAPPLE, *RECOMMENDER systems, *ACID sulfate soils, *DEFICIENCY diseases, *DATABASES, *DIAGNOSIS

Abstract

The diagnosis and recommendation integrated system (DRIS) has such high reliability that it can be used to evaluate many crops. Therefore, in order to have a practical database for these norms, this study was conducted to evaluate the established DRIS norms for plant pineapples (Ananas comosus L.) and to assess their nutrition status in an acid sulfate soil. Healthy and disease-free leaf samples of 8-month-old pineapple plants without fruits were collected from experimental fields with nutritional omission trials and from farmers' fields at four cultivating sites. Nutrient concentrations were analyzed to determine DRIS indices. The result showed that the + 7 leaf was highly reliable to diagnose the macro-nutrition status, while the + 1 leaf and + 3 leaf lacked the nutrient ratios pair to assess P and Mg nutrition status. Based on the average DRIS indices of the four sites, the nutrient surplus was observed in the order P>Mn>Fe>Ca (81.7 > 52.8 > 15.7 > 13.3), while nutrient deficiency varied in the order K>Zn>N>Mg (−88.2<-20.3<-16.4<-10.7) at the + 7 leaf. The DRIS norms needed to be calibrated to obtain nutrient ratio pairs for P in the + 1 leaf, and P and Mg at the + 3 leaf. [ABSTRACT FROM AUTHOR]

Published

2024

36. Dietary chromium-methionine supplementation and broiler (22–43 days) responses during heat stress. 2 - Physiological variables, and heat shock protein 70 and insulin-like growth factor-1 gene expression.

Author

Dalólio, Felipe Santos, Albino, Luiz Fernando Teixeira, de Oliveira, Haniel Cedraz, Fireman, Alba Kyonara Barbosa Alves Tenorio, Burin Junior, Alvaro, Busanello, Marcos, Rohloff Junior, Nilton, Silva Tesser, Guilherme Luis, and Nunes, Ricardo Vianna

Subjects

*HEAT shock proteins, *DIETARY supplements, *GENE expression, *CHICKS, *BODY temperature regulation, *ANIMAL nutrition, *BODY temperature

Abstract

Context: Dietary supplementation with trace mineral chromium (Cr) has been shown to enhance the physiological responses of broilers subjected to heat stress (HS), modulate gene expression, and improve performance. Aims: This study aimed to evaluate the impact of chromium–methionine (CrMet) supplementation on growth performance, body temperatures, lymphoid organ weights, hormones, blood parameters, and the expression of heat-shock protein-70 (HSP-70) and insulin-like growth factor-1 (IGF-1) genes in broilers under HS conditions (33°C for 12 h/day). Methods: In the first experiment, 336 22-day-old male broilers were randomly distributed into four blocks with six treatments (0, 0.10, 0.20, 0.40, 0.80, and 1.20 mg/kg CrMet) and eight replicates with seven birds per cage. These broilers were subjected to HS from 22 to 43 days of age. In the second experiment, 24 male broilers, in total, at 43 days of age, previously exposed to HS, were randomly distributed to the same six treatments from the first experiment, with four replicates. Breast samples were collected for the analysis of HSP-70 and IGF-1 expression. Results: A quadratic effect (P < 0.05) was observed on bodyweight gain (BWG) and feed conversion ratio (FCR). The supplementation of 0.71 and 0.68 mg/kg improved BWG and FCR, respectively. At 28 days of age, cloacal and mean body temperatures, corticosterone, and thyroid hormones were quadratically affected (P < 0.05), while at 43 days of age, a linear effect (P < 0.05) was observed on haemoglobin concentration. There was a reduction (P < 0.05) in the expression of HSP-70 and an increase in IGF-1 (P < 0.05) in the breast tissue of broilers supplemented with CrMet. Conclusions: The supplementation with 0.71 mg/kg and 0.68 mg/kg of CrMet improved BWG and FCR, respectively. Additionally, the supplementation with 0.80 mg/kg improved hormones, reduced HSP-70 and increased the expression of IGF-1 in broilers during HS. Implications: These findings suggest that CrMet can be included in the diet of broiler chickens subjected to HS to enhance physiological responses and performance. In the challenging world of broiler farming, the use of organic trace minerals sheds light on ways to improve the performance of heat-stressed chickens. Chromium–methionine (CrMet) supplementation has significant impacts promoting growth, regulating hormones, and altering genetic activity in broilers exposed to heat stress. CrMet supplementation supports animal health and nutrition for a more robust broiler production. [ABSTRACT FROM AUTHOR]

Published

2024

37. ANÁLISIS DEL CRECIMIENTO DE DOS VARIEDADES DE PAPA CRIOLLA BAJO DIFERENTES TIPOS DE FERTILIZACIÓN.

Author

Latorre-Araque, Carlos A., Quevedo-García, Enrique, and González, Ana Francisca

Subjects

ORGANIC fertilizers, LEAF area, SOIL testing, CROP growth, POTASSIUM phosphates

Abstract

Copyright of BIOAGRO is the property of Revista BIOAGRO and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

38. The effects of foliar amino acid and Zn applications on agronomic traits and Zn biofortification in soybean (Glycine max L.).

Author

Han, Şule, Sönmez, İlker, Qureshi, Moin, Güden, Birgül, Gangurde, Sunil S., and Yol, Engin

Subjects

BIOFORTIFICATION, AMINO acids, FOOD crops, PLANT breeding, SOYBEAN, ALFALFA growing, COWPEA, BOTANY

Abstract

This article, published in Frontiers in Plant Science, explores the effects of foliar amino acid and zinc applications on agronomic traits and zinc biofortification in soybeans. The study found that the application of amino acids and zinc did not affect the yield of soybeans, but certain combinations did impact the number of pods and branches. Additionally, amino acid application had a significant effect on nitrogen and protein content in the grains. The most effective treatment for enhancing zinc biofortification in soybean grains was the application of a specific combination of amino acids and zinc. Overall, the study highlights the potential for foliar application of amino acids and zinc to enhance zinc accumulation in soybean grains. [Extracted from the article]

Published

2024

39. Rice resistance against Bipolaris oryzae infection is mediated by lower foliar potassium concentration.

Author

Silva, Leandro C., Einhardt, Andersom M., Brás, Verônica V., Oliveira, Lillian M., Chaves, Joicy A. A., Pinto, Luiz F. C. C., and Rodrigues, Fabrício A.

Subjects

*BROWN rice, *BIPOLARIS, *RICE diseases & pests, *REACTIVE oxygen species, *POTASSIUM, *LIGNINS, *AMYLOSE

Abstract

Brown spot, caused by Bipolaris oryzae, is a very important disease of rice. This study investigated the effect of potassium (K) on rice resistance to brown spot. The working hypothesis tested was that higher foliar K concentration could allow plants to respond more efficiently against fungal infection. Plants were grown in nutrient solution amended with three K rates (0.5, 1.0 and 2.5 mM) and noninoculated or inoculated with B. oryzae. The photosynthetic performance of plants, activities of defence and antioxidant enzymes and the concentrations of reactive oxygen species, phenolics and lignin were determined. Foliar K concentration was significantly higher by 38% and 91% for plants supplied with 1.0 and 2.5 mM K, respectively, compared to plants supplied with 0.5 mM K. Brown spot severity was significantly higher (≥20%) for plants supplied with 1.0 and 2.5 mM K than those supplied with 0.5 mM K (≤15%). Higher brown spot severity for plants supplied with 2.5 mM K resulted in changes in the photosynthetic apparatus, reduced chlorophyll a + b and carotenoids concentrations, and higher production of hydrogen peroxide and superoxide anion radical. In contrast, higher activities of defence and antioxidant enzymes and more production of phenolics for plants supplied with 0.5 mM K helped them to cope with B. oryzae infection more efficiently. In conclusion, rice resistance against brown spot was achieved by keeping a lower foliar K concentration linked to more active defence reactions, a robust antioxidative system and less damage to the photosynthetic apparatus. [ABSTRACT FROM AUTHOR]

Published

2024

40. The Effects of Liquid Biogas Digestate on Yield and Mineral Nutrition of Cucumber Growing in Greenhouse.

Author

ÇALIK, Buşra and SÖNMEZ, İlker

Subjects

CUCUMBER growing, MINERALS in nutrition, BIOGAS, CUCUMBERS, LIQUID waste, PLANT nutrition

Abstract

This study aimed to investigate the effects of a liquid fraction of digestate obtained from different biogas plants on the growth and mineral nutrition of cucumber plants under greenhouse conditions. For this purpose, Liquid Biogas Digestates (LBD) obtained from two different plants (A-B) with different properties were applied to pots with 10 kg of soil in 5 different doses (0, 20, 40, 60, and 80 t ha-1) and the effects of the treatments were observed. As a result of the research, the highest yields increased 24.6% for digestate A in A5 (80 t ha-1) and 29% for digestate B in B3 (40 t ha-1) compared to control. While LBD contributed to the increase of N, Ca, Zn, Cu, and Mn concentrations in the leaf samples, it was observed that the dose increase did not have a linear effect on N, Ca, Zn, Cu, and Mn concentrations in the leaf samples. It is thought that liquid biogas wastes produced in biogas plants have positive effects on fruit yield, agricultural practices can be taken as the basis for the disposal of these wastes and the use of liquid biogas residues in soils by eliminating potential risks can provide significant benefits. [ABSTRACT FROM AUTHOR]

Published

2024

41. Enhancing irrigation water quality efficiently with potassium feldspar-derived adsorbent: Heavy metal detoxification and nutrient augmentation

Author

Yi Lin, Xuehong Zhang, Yuexin Fu, Chuikun Xu, Xuemeng Yang, Zhiyu Tan, Hua Lin, and Gongning Chen

Subjects

Economical adsorbent, Elimination of Pb2+ and Cd2+, Single and complex adsorption, Mineral nutrition, Stability, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

The pollution of Pb2+ and Cd2+ in both irrigation water and soil, coupled with the scarcity of vital mineral nutrition, poses a significant hazard to the security and quality of agricultural products. An economical potassium feldspar-derived adsorbent (PFDA) was synthesized using potassium feldspar as the main raw material through ball milling-thermal activation technology to solve this problem. The synthesis process is cost-effective and the resulting adsorbent demonstrates high efficiency in removing Pb2+ and Cd2+ from water. The removal process is endothermic, spontaneous, and stochastic, and follows the quasi-second-order kinetics, intraparticle diffusion, and Langmuir model. The adsorption and elimination of Pb2+ and Cd2+ is largely dependent on monolayer chemical sorption. The maximum removal capacity of PFDA for Pb2+ and Cd2+ at room temperature is 417 and 56.3 mg·g−1, respectively, which is superior to most mineral-based adsorbents. The desorption of Pb2+/Cd2+ on PFDA is highly challenging at pH≥3, whereas PFDA and Pb2+/Cd2+ are recyclable at pH≤0.5. When Pb2+ and Cd2+ coexisted, Pb2+ was preferentially removed by PFDA. In the case of single adsorption, Pb2+ was mainly adsorbed onto PFDA as Pb2SiO4, PbSiO3·xH2O, Pb3SiO5, PbAl2O4, PbAl2SiO6, PbAl2Si2O8, Pb2SO5, and PbSO4, whereas Cd2+ was primarily adsorbed as CdSiO3, Cd2SiO4, and Cd3Al2Si3O12. After the complex adsorption, the main products were PbSiO3·xH2O, PbAl2Si2O8, Pb2SiO4, Pb4Al2Si2O11, Pb5SiO7, PbSO4, CdSiO3, and Cd3Al2Si3O12. The forms of mineral nutrients in single and complex adsorption were different. The main mechanisms by which PFDA removed Pb2+ and Cd2+ were chemical precipitation, complexation, electrostatic attraction, and ion exchange. In irrigation water, the elimination efficiencies of Pb2+ and Cd2+ by PFDA within 10 min were 96.0 % and 70.3 %, respectively, and the concentrations of K+, Si4+, Ca2+, and Mg2+ increased by 14.0 %, 12.4 %, 55.7 %, and 878 %, respectively, within 60 min. PFDA holds great potential to replace costly methods for treating heavy metal pollution and nutrient deficiency in irrigation water, offering a sustainable, cost-effective solution and paving a new way for the comprehensive utilization of potassium feldspar.

Published

2024

42. Effects of nitrogen fertilizer application on the quality of pitaya planted in calcareous soil in karst area

Author

CHEN Ting, TAN Yanfang, LU Shuhua, LI Dongxing, LI Jianxing, and LU Fang

Subjects

nitrogen fertilizer, karst calcareous soil, pitaya, fruit quality, mineral nutrition, Botany, QK1-989

Abstract

Effects of different nitrogen fertilizer application rates on fruit quality of pitaya under the condition of calcareous soil in karst area were discussed in order to investigate the effects of nitrogen fertilizer application level on fruit quality of pitaya under calcareous soil condition in karst area. The ‘Taiwan Dahong’ pitaya were used as the experiment material. Based on 0.216 kg of phosphorus (P) and 0.324 kg of potassium (K), four nitrogen (N) application levels (CK, T1, T2, T3) were setted. Twenty-one fruit quality indexes were determined, and the quality differences of pitaya with different N application levels (CK, T1, T2, T3) were compared. At the same time, eleven appearance quality indexes were comprehensively analyzed by principal component analysis. The results were as follows: (1) Compared with the control, N application could increase the contents of soluble sugar and soluble solids of fruit, reduce the contents of protein and dietary fiber, and the high nitrogen treatment (T3) was significantly different from other treatments. With the increase of N application, the contents of titratable acid and vitamin C of fruit increased firstly and then decreased, while the solid-acid ratio decreased firstly and then increased. T3 significantly increased the fruit vertical and horizontal diameters, fruit shape index and single fruit weight. (2) Compared with the control, N application treatment reduced the N content of pitaya fruit and increased the P content, and the N and P contents of each treatment were significantly different. The K content of fruit increased with the increase of N application. N application increased fruit boron (B) content and decreased fruit cuprum (Cu) content. The contents of manganese (Mn), ferrum (Fe), calcium (Ca) and magnesium (Mg) in different treatments were ranked as T3 > T1 > CK > T2. The content of zinc (Zn) decreased firstly and then increased with the increase of N application. (3) The principal component comprehensive evaluation score of the high N treatment was the highest, indicating that when selecting brown calcareous soil in Guilin karst area to grow pitaya, supplemented by a certain amount of P and K fertilizers, high N treatment was more conducive to improving the quality of pitaya. Therefore, in actual production, it is necessary to make appropriate adjustments according to the soil fertility status of the plantation.

Published

2024

43. Effects of climate, soil and water source on determining exchangeable copper concentration in lowland paddy fields in Sri Lanka

Author

Charuka Chandrasekara, Mojith Ariyaratne, Ranga Madushan, Upul Rathnayake, Rohana Thilakasiri, Harsha Kadupitiya, Rohana Chandrajith, Chalinda Beneragama, and Lalith Suriyagoda

Subjects

bioavailability, deficiency, irrigation, mineral nutrition, soil fertility, Agriculture, Agricultural industries, HD9000-9495

Abstract

Copper (Cu) is an essential micronutrient for rice. However, the current status of Cu in Sri Lankan paddy soils is not known. Therefore, the current study was conducted to determine the distribution of exchangeable Cu concentration and examine the interactive effects of the agro-climatic zone (ACZ), soil order, and water source in determining the exchangeable Cu concentration in lowland paddy fields in Sri Lanka. A total of 7,544 soil samples representing six ACZs, six soil orders, and three water sources were collected using a stratified random sampling approach. Soil exchangeable Cu fraction was extracted in 0.01 M CaCl2 and measured using Inductively Coupled Plasma Mass Spectrophotometry. Exchangeable Cu concentration was in the range of 0.04−728 µg·kg−1 with a mean value of 62.4 µg·kg−1. Only 5% of the soil samples tested had Cu concentration greater than 200 µg·kg−1 indicating a widespread Cu deficiency in Sri Lankan paddy fields (i.e. critical level causing Cu deficiency; 200–300 µg·kg−1). Among the climatic zones Wet zone had higher and the Dry zone had lower Cu concentrations. Among the soil orders, histosols had higher and alfisols had lower Cu concentrations. Water sources used for rice cultivation did not determine Cu concentration. Moreover, Cu concentration was positively correlated with soil pH. As most of the soil samples were deficient in soil exchangeable Cu, spatial maps generated in the current work could be used to develop ACZ and soil order-specific agronomic and management strategies to improve soil Cu fertility status.

Published

2024

44. Reduced Fertilization and Magnesium Supplementation: Modulating Fruit Quality in Honey Pomelo (Citrus maxima (Burm.) Merr.)

Author

Da Su, Yunfei Jiang, Biao Song, Zhaozheng Wu, Xiaojun Yan, Zhiyuan He, Delian Ye, Jie Ou, Yingzhe Zeng, and Liangquan Wu

Subjects

Citrus maxima (Burm.) Merr., fruit quality, phenolic, flavonoid, phytic acid, mineral nutrition, Botany, QK1-989

Abstract

The excessive use of chemical fertilizers in the Guanxi honey pomelo production area has led to severe soil acidification and magnesium (Mg) deficiency, adversely affecting pomelo fruit quality. To address this issue, an integrated nutrient optimization model crucial for ensuring the sustainable and environmentally friendly development of the Guanxi honey pomelo industry has been explored. In a three-year experiment, two fertilizer treatments were implemented: a farmer fertilizer practice (FP) and an NPK reduction plus foliar Mg fertilizer (OPT + fMg). We investigated the impact of this integrated optimized fertilization measure on pomelo fruit quality from three aspects: flavor (sugars and organic acids), nutrition (vitamin C and mineral elements), and antioxidant properties (phenolics, flavonoids, and phytic acid). The results revealed that the OPT + fMg treatment improved fruit flavor by reducing acidity (titratable acid, citric acid, and quinine), while having a minimal impact on sugar components (sucrose, fructose, and glucose). Additionally, the OPT + fMg treatment increased the total phenolics, total flavonoids, and phytic acid in the fruit peel, enhancing its potential antioxidant quality. However, the OPT + fMg treatment reduced the mineral nutrient quality (excluding calcium) in the fruit. As for the fruit developmental period, the OPT + fMg treatment significantly increased the total flavonoid concentration in the peel from the mid-expansion fruit stage, followed by notable increases in phytic acid in the peel during the mid-to-late expansion fruit stage. The total phenolic concentration in the peel significantly rose only during the late fruit development stage. The most pronounced effect was observed on phytic acid in both peel and pulp. The influence of the OPT + fMg treatment on the mineral nutrients (excluding calcium) primarily occurred during the mid-to-late expansion fruit stage. Overall, the OPT + fMg treatment significantly improved the comprehensive nutritional quality of pomelo fruit, providing valuable insights for scientifically reducing fertilizer application while enhancing fruit quality.

Published

2024

45. Investigating the effects of excessive zinc on growth, mineral nutrition, and biochemical parameters of Carthamus tinctorius L. during the flowering stage: A comprehensive analysis

Author

Smaoui, Ameni, Ben Salah, Imene, Mahmoudi, Hela, Medimagh, Sana, Taheri, Ali, and Ouerghi, Zeineb

Published

2024

46. Combined effect of elevated CO2 and Fe deficiency on common bean metabolism and mineral profile.

Author

Deuchande, Teresa and Vasconcelos, Marta

Subjects

*FOOD crops, *CROP quality, *NUTRIENT uptake, *METABOLISM, *PLANT metabolism, *COMMON bean, *HYDROPONICS

Abstract

Aims: Elevated atmospheric CO2 (eCO2) and restricted iron (Fe) supply are known to impact plant growth and nutritional quality of food crops. However, studies aimed at understanding how eCO2 will interact with Fe deficiency are scarce. Changes in the nutritional status of the common bean (Phaseolus vulgaris L.) may significantly impact the nutritional status of populations that rely heavily on this crop. Methods: To understand the combined effects of eCO2 and Fe deficiency on mechanisms relevant to plant nutrient uptake and accumulation, common bean plants were grown under Fe sufficiency (Fe+, 20 mM Fe-EDDHA) and Fe deficiency (Fe-, 0 mM Fe-EDDHA) combined with eCO2 (800 ppm) or ambient CO2 (aCO2, 400 ppm) in hydroponics until maturity. Results: Elevated CO2, besides stimulating photosynthesis and stomatal closure, highly affected plant Fe metabolism: stimulated root ferric chelate reductase (FCR) activity by 6-fold and downregulated the expression of root FRO1 and IRT1 expressions by about 4-fold. In leaves, citrate and oxalate increased, but ferritin expression decreased by 9-fold. Such changes may have determined the differences on mineral accumulation patterns particularly the lower levels of Fe in roots (62%), leaves (38%) and seeds (50%). The combination of Fe deficiency and eCO2 doubled the effect of a single factor on FCR up-regulation, balanced the internal pH of Fe deficient plants, and resulted in the lowest Fe accumulation in all plant parts. Conclusions: These results suggest that eCO2 directly affects the Fe uptake mechanism of common bean plants, decreasing plant Fe content. [ABSTRACT FROM AUTHOR]

Published

2024

47. 氮肥施用对岩溶区石灰土种植火龙果品质的影响.

Author

陈 婷, 谭艳芳, 陆树华, 李冬兴, 李健星, and 陆 芳

Abstract

Effects of different nitrogen fertilizer application rates on fruit quality of pitaya under the condition of calcareous soil in karst area were discussed in order to investigate the effects of nitrogen fertilizer application level on fruit quality of pitaya under calcareous soil condition in karst area. The ‘Taiwan Dahong' pitaya were used as the experiment material. Based on 0.216 kg of phosphorus(P)and 0.324 kg of potassium(K), four nitrogen(N)application levels(CK, T1, T2, T3)were setted. Twenty-one fruit quality indexes were determined, and the quality differences of pitaya with different N application levels(CK, T1, T2, T3)were compared. At the same time, eleven appearance quality indexes were comprehensively analyzed by principal component analysis. The results were as follows: (1)Compared with the control, N application could increase the contents of soluble sugar and soluble solids of fruit, reduce the contents of protein and dietary fiber, and the high nitrogen treatment(T3)was significantly different from other treatments. With the increase of N application, the contents of titratable acid and vitamin C of fruit increased firstly and then decreased, while the solid-acid ratio decreased firstly and then increased. T3 significantly increased the fruit vertical and horizontal diameters, fruit shape index and single fruit weight. (2)Compared with the control, N application treatment reduced the N content of pitaya fruit and increased the P content, and the N and P contents of each treatment were significantly different. The K content of fruit increased with the increase of N application. N application increased fruit boron(B)content and decreased fruit cuprum(Cu)content. The contents of manganese(Mn), ferrum(Fe), calcium(Ca)and magnesium(Mg)in different treatments were ranked as T3 > T1 > CK > T2. The content of zinc(Zn)decreased firstly and then increased with the increase of N application. (3)The principal component comprehensive evaluation score of the high N treatment was the highest, indicating that when selecting brown calcareous soil in Guilin karst area to grow pitaya, supplemented by a certain amount of P and K fertilizers, high N treatment was more conducive to improving the quality of pitaya. Therefore, in actual production, it is necessary to make appropriate adjustments according to the soil fertility status of the plantation. [ABSTRACT FROM AUTHOR]

Published

2024

48. Iron supplementation in the diets of hybrid catfish (Ictalurus punctatus × I. furcatus) juveniles affected haematocrit levels and potentially decreased disease resistance to Edwardsiella ictaluri.

Author

Yamamoto, Fernando Y., Griffin, Matt J., Richardson, Bradley M., Stilwell, Justin M., Romano, Nicholas, Goodman, Penelope M., Reifers, J. Grant, and Wise, David J.

Subjects

*CHANNEL catfish, *DIETARY supplements, *NATURAL immunity, *EDWARDSIELLA, *CATFISHES, *IRON supplements

Abstract

To prevent catfish idiopathic anaemia, diets fortified with iron have been adopted as a regular practice on commercial catfish farms to promote erythropoiesis. However, the effects of prolonged exposure of excess dietary iron on production performance and disease resistance for hybrid catfish (Ictalurus punctatus × I. furcatus) remains unknown. Four experimental diets were supplemented with ferrous monosulphate to provide 0, 500, 1000, and 1500 mg of iron per kg of diet. Groups of 16 hybrid catfish juveniles (~22.4 g) were stocked in each of 20, 110‐L aquaria (n = 5), and experimental diets were offered to the fish to apparent satiation for 12 weeks. At the end of the study, production performance, survival, condition indices, as well as protein and iron retention were unaffected by the dietary treatments. Blood haematocrit and the iron concentration in the whole‐body presented a linear increase with the increasing the dietary iron. The remaining fish from the feeding trial was challenged with Edwardsiella ictaluri. Mortality was mainly observed for the dietary groups treated with iron supplemented diets. The results for this study suggest that iron supplementation beyond the required levels does affect the blood production, and it may increase their susceptibility to E. ictaluri infection. [ABSTRACT FROM AUTHOR]

Published

2024

49. Influence of Maternal Supplementation with Vitamins, Minerals, and (or) Protein/Energy on Placental Development and Angiogenic Factors in Beef Heifers during Pregnancy.

Author

Dávila Ruiz, Bethania J., Dahlen, Carl R., McCarthy, Kacie L., Caton, Joel S., Hurlbert, Jennifer L., Baumgaertner, Friederike, B. Menezes, Ana Clara, Diniz, Wellison J. S., Underdahl, Sarah R., Kirsch, James D., Sedivec, Kevin K., Bochantin, Kerri A., Borowicz, Pawel P., Canovas, Sebastián, and Reynolds, Lawrence P.

Subjects

VASCULAR endothelial growth factors, DIETARY supplements, ENERGY development, HEIFERS, WEIGHT gain, PREGNANCY, PREGNANCY in animals, VITAMINS

Abstract

Simple Summary: Understanding placental vascularity is vital for ensuring the proper nourishment of the fetus and, therefore, a healthy offspring. We aimed to investigate the impact of vitamin and mineral supplementation and/or different rates of body weight gain on placental vascularity in beef heifers. To this end, in the first experiment, heifers were divided into groups that received vitamin and mineral supplementation or did not at least 72 days before breeding. At breeding, they were further divided into low or moderate-weight gain groups, resulting in four different treatments maintained until day 83 of pregnancy when tissue collection was performed. In the second experiment, another group of heifers received a basal diet or a diet with vitamin and mineral supplementation from breeding until parturition. We evaluated placental blood vessel density in both experiments and the placental expression of genes related to blood vessel growth in the first experiment. Results showed that supplementation and the rate of body weight gain during early pregnancy did not significantly affect placental vascularity or the expression of angiogenic factors. On the other hand, placental vascularity measured at parturition was increased in the fetal placenta of the supplemented group. These findings suggest that supplementation with vitamins and minerals throughout all gestation may impact placental function at a later stage of pregnancy. The effect of vitamins and minerals supplementation (VTM) and/or two rates of body weight gain (GAIN) on bovine placental vascular development and angiogenic factors gene expression were evaluated in two experiments: In Exp. 1, crossbred Angus heifers (n = 34) were assigned to VTM/NoVTM treatments at least 71 days before breeding to allow changes in the mineral status. At breeding, through artificial insemination (AI), heifers were assigned to low-gain (LG) 0.28 kg/d or moderate-gain (MG) 0.79 kg/d treatments, resulting in NoVTM-LG (Control; n = 8), NoVTM-MG (n = 8), VTM-LG (n = 9), and VTM-MG (n = 9) until day 83 of gestation; In Exp. 2, crossbred angus heifers (n = 28), were assigned to control (CON; n = 12), receiving a basal total mixed ration (TMR) or TMR + VTM (VTM; n = 16) from breeding until parturition. Placentomes from Exp. 1 and cotyledons (COT) from Exp. 2 were evaluated by immunohistochemistry for COT vascular density area. COTs from Exp. 1 were evaluated for angiogenic factor (ANGPT-1, ANGPT-2, eNOS2, eNOS3, FLT1, KDR, TEK, VEGFA) gene expression. In Exp. 1, COT vascularity was not affected by the interaction of VTM and GAIN (p = 0.67) or the main effects of VTM (p = 0.50) and GAIN (p = 0.55). Likewise, angiogenic factors were not differentially expressed between treatments (p < 0.05). In Exp. 2, COT vascularity was greater in VTM vs. CON (p = 0.07). In conclusion, there is a suggested later-stage influence of vitamin and mineral supplementation on placental vascularity, emphasizing the importance of supplementation beyond early pregnancy. [ABSTRACT FROM AUTHOR]

Published

2024

50. Aquaporins-mediated water availability in substrates for cannabis cultivation in relation to CBD yield.

Author

Ortiz-Delvasto, Nidia, Garcia-Gomez, Pablo, Carvajal, Micaela, and Bárzana, Gloria

Subjects

*CANNABIS (Genus), *CANNABIDIOL, *WATER supply, *ABSORPTION of water in plants, *METABOLITES, *CULTIVATED plants, *WATER use

Abstract

Aims: The objective of this study was to identify the most suitable substrate for Cannabis sativa L. cultivation based on its effects on water relations and Cannabidiol (CBD) production. Methods: Biomass, physiological parameters, minerals, changes in the expression levels of plasma membrane intrinsic Proteins (PIP) and CBD concentration was measured in C. sativa (var. Tiborszallasi) plants cultivated on 5 substrates with different physical–chemical characteristics. Results: The substrates available water (AW) was the main factor affecting growth and production. The efficiency of the water use was governed fundamentally by transpiration. Experimental substrates(S) 1 and 3 (S1 and S3) were those in which the plants grew optimally and allows plants to invest energy in secondary metabolites production acquiring high levels of CBD. The plants grown in S2 and S5, composed by coconut fiber and perlite, showed the lowest growth in agreement with low transpiration rates which reduce the water uptake. S5 substrate, with some available water (AW) still present, is forcing plants to invest energy in improving water and nutrient transport, as observed by the high levels of nutrients in planta and PIPs expression levels. S4 plants presented the highest inflorescence production and CBD content, which can be attributed to plant stress due to the low levels of AW and high pH and electrical conductivity (EC). Conclusion: The absorption of water and minerals by plants has been affected by PIP-mediated water transport, playing key roles for the optimal utilization of the water present in the substrates, with specific isoforms involved in these responses. [ABSTRACT FROM AUTHOR]

Published

2024