Your search keyword '"organic"' showing total 10,666 results

1. Qualitative Insights Into Harvesting Sustainability: The Role of Organic Agriculture in Advancing Sustainable Development Goals

Author

Arora, Manpreet, author, Gupta, Sanjeev, author, and Mittal, Amit, author

Published

2024

2. Recycling of leaf litters: Biowaste management for resource conservation

Author

Isaac, Sheeba Rebecca and George, Amala Mary

Published

2024

3. MoSe2/P3HT Hybrid Heterostructure Field‐Effect‐Transistor for Photodetection.

Author

Khanikar, Prabal Dweep, Sandhu, Harmanpreet Kaur, Sharma, Sumit, Lo, Shih‐Chun, Namdas, Ebinazar B., and Das, Samaresh

Abstract

In recent years, there has been a surge of interest in organic–inorganic hybrid heterostructures for optoelectronic devices due to their unparalleled advantages over all organic or all inorganic heterostructures. Despite substantial research, the potential of such hybrid heterostructures in phototransistor configuration has not been fully explored. Here, a hybrid phototransistor based on molybdenum diselenide (MoSe2) and poly(3‐hexylthiophene‐2,5‐diyl) (P3HT) heterojunction are reported with high n‐channel field‐effect mobility of 5.6 cm2 V−1 s−1 and excellent photodetector performance. The passivation of MoSe2 by the P3HT layer helps in notable reduction in the hysteresis loop, which otherwise can cause operational instabilities and measurement uncertainties. The hybrid phototransistor exhibits a large photoresponsivity of 40.4 AW−1 and a high detectivity of 2.03 × 1010 Jones at 660 nm wavelength irradiation. More importantly, the device features a fast photoresponse speed with rise/fall time of 363/370 µs, which is superior to other hybrid phototransistors based on transition metal dichalcogenides (TMD)‐organic heterostructures. These results highlight the potential of organic–inorganic systems as a possible avenue for developing next‐generation hybrid phototransistors. [ABSTRACT FROM AUTHOR]

Published

2024

4. Fabrication of Flexible Double‐Gate Organic Thin Film Transistor For Tactile Applications.

Author

Concas, Mattia, Mascia, Antonello, Lai, Stefano, Bonfiglio, Annalisa, and Cosseddu, Piero

Abstract

In this work, the development of a flexible Double‐Gate (DG) organic thin film transistor (DG‐OTFT), and its employment is reported for the realization of multimodal tactile sensors. Due to the self‐encapsulation of the stacked DG architecture, highly stable organic transistors are obtained that show almost negligible degradation after 6 months. Moreover, such configuration is also very useful for the development of sensing devices. In the case, one of the two gates is used to bias and set the working point of the devices, whereas the second one is connected to a polyvinylidene fluoride(PVDF)‐capacitor, a pyro/piezoelectric material. It is demonstrated that the charge displacement induced by the PVDF capacitor due to an applied external pressure or due to a temperature variation led to a reproducible variation of the device's output current. Using this approach high‐performing multimodal tactile sensors are obtained with sensitivity to up to 241 nA N−1 and 442 nA °C−1 respectively. [ABSTRACT FROM AUTHOR]

Published

2024

5. Organic input incorporation for enhancing sustainability and economic viability of cowpea in North-Western Himalayan region.

Author

Sharma, Tarun, Singh, Janardan, Madaik, Sparsh, Kumar, Pardeep, Singh, Akashdeep, Rana, Bharat Bhushan, and Chauhan, Garima

Subjects

ORGANIC farming, AGRICULTURE, SOIL biology, FARM manure, SUSTAINABLE development, COWPEA

Abstract

Cowpea (Vigna unguiculata L. [Walp.]) cultivation encounters a plethora of challenges such as suboptimal productivity levels, declined income levels, and poor soil health under conventional fertilization systems. Therefore, the present field investigation was undertaken at the Research Farm, Department of Agronomy, CSKHPKV, Palampur in the rainy season of 2019 to evaluate eight combinations of organic farming and Zero Budget Natural Farming (NF) based inputs, i.e., Beejamrita (100 ml kg−1 of seed) + Jeewamrita (187.5 L ha−1); Beejamrita (100 ml kg−1 of seed) + GhanaJeewamrita (250 kg ha−1); Beejamrita (100 ml kg−1 of seed) + Jeewamrita (187.5 L ha−1) + GhanaJeewamrita (250 kg ha−1); farm yard manure (FYM) 10 Mg ha−1; FYM (10 Mg ha−1) + GhanaJeewamrita (250 kg ha−1); biofertilizers (PSBs and Rhizobium at 10 g kg−1 of seed) + FYM (10 Mg ha−1) + vermiwash (1:10); biofertilizers (PSBs and Rhizobium at 10 g kg−1 of seed) + vermicompost (7.5 Mg ha−1) + vermiwash (1:10); absolute (untreated) control; in a randomized complete block design with three replications for their influence over cowpea productivity, profitability, and energetics. The results of the investigation revealed that applying FYM (10 Mg ha−1) and GhanaJeewamrita (250 kg ha−1) in combination resulted in significantly higher grain yield(1,070.5 kg ha−1), economic net returns (766.61 USD ha−1), net energy gains (78,230 MJ ha−1), and considerably improved soil microbial biomass carbon (133.92 mg g−1 of soil), nitrogen (27.40 mg g−1 of soil), urease (52.20 (mg g−1 urea of soil h−1), and dehydrogenase activity (5.21mg g−1 TPF of soil h−1). Improved soil biological properties in the present study might have been responsible for considerable increment in cowpea yield and profitability. Therefore, in-combination application-based module of FYM (10 Mg ha−1) and GhanaJeewamrita (250 kg ha−1) can be recommended for enhancing productivity and profitability of cowpea cultivation under North-Western Himalayan agro-ecological conditions. This study contributes valuable insights for organic input strategies in regions facing similar challenges. [ABSTRACT FROM AUTHOR]

Published

2024

6. Greenhouse gas emissions and nutrient use efficiency assessment of 6 New York organic dairies.

Author

Olivo, Agustin J., Godber, Olivia F., Reed, Kristan F., Nydam, Daryl V., Wattiaux, Michel A., and Ketterings, Quirine M.

Subjects

*GREENHOUSE gases, *CARBON dioxide, *FARM manure, *DAIRY farms, *CARBON in soils

Abstract

Improving nutrient use efficiency and reducing GHG emissions are important environmental priorities for organic-certified dairy operations. The objectives of this research were to quantify annual nutrient use and GHG emissions in 6 organic New York dairy farms. Farm-gate nutrient mass balances (NMB) were estimated with the Cornell NMB calculator. Whole-farm GHG emissions were estimated using the Cool Farm Tool (CFT) and COMET. Farm-gate NMB were low, ranging from −6.5 to 19 kg N/ha for N1 (without legume N fixation), 26 to 71 kg N/ha for N2 (including N fixation), −2.4 to 8.2 kg P/ha for P, and 1.1 to 19.8 kg K/ha for K. Additional nutrient imports, coupled with nutrient management planning, adequate legume stands, and diet balancing may help improve P balances and ensure no N deficiencies in the system. Estimates of annual GHG emissions intensity ranged from 0.98 to 2.10 kg of CO 2 -equivalents (CO 2 -eq) per kilogram of fat- and protein-corrected milk (FPCM) estimated by CFT, and from 0.69 to 2.48 kg CO 2 -eq/kg FPCM estimated by COMET. Enteric fermentation, feed production, and fuel and energy use represented the largest sources of GHG. For farms with liquid manure storages, manure management was also a significant source. Estimates of soil carbon (C) stock changes from CFT were in agreement with or smaller than previous studies, and estimates from COMET were in agreement or greater. Variability and uncertainty in the results for soil C stock change indicate that more research and new protocols are needed. The effects of individual management changes on GHG emissions intensity were small, ranging from −8 to +7% in CFT, and −8% to +8% in COMET. The management changes that resulted in the largest reductions in GHG emissions intensity included increasing individual cow productivity and ratio of milk to total feed, and implementation of manure treatment systems. The list of standard abbreviations for JDS is available at adsa.org/jds-abbreviations-24. Nonstandard abbreviations are available in the Notes. [ABSTRACT FROM AUTHOR]

Published

2024

7. 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

8. Empowering Consumer Decision-Making: Decoding Incentive vs. Organic Reviews for Smarter Choices Through Advanced Textual Analysis †.

Author

Kargozari, Kate, Ding, Junhua, and Chen, Haihua

Subjects

CONSUMER behavior, INCENTIVE (Psychology), CONSUMER preferences, SENTIMENT analysis, CONSUMERS' reviews

Abstract

Online reviews play a crucial role in influencing seller–customer dynamics. This research evaluates the credibility and consistency of reviews based on volume, length, and content to understand the impacts of incentives on customer review behaviors, how to improve review quality, and decision-making in purchases. The data analysis reveals major factors such as costs, support, usability, and product features that may influence the impact. The analysis also highlights the indirect impact of company size, the direct impact of user experience, and the varying impacts of changing conditions over the years on the volume of incentive reviews. This study uses methodologies such as Sentence-BERT (SBERT), TF-IDF, spectral clustering, t-SNE, A/B testing, hypothesis testing, and bootstrap distribution to investigate how semantic variances in reviews could be used for personalized shopping experiences. It reveals that incentive reviews have minimal to no impact on purchasing decisions, which is consistent with the credibility and consistency analysis in terms of volume, length, and content. The negligible impact of incentive reviews on purchase decisions underscores the importance of authentic online feedback. This research clarifies how review characteristics sway consumer choices and provides strategic insights for businesses to enhance their review mechanisms and customer engagement. [ABSTRACT FROM AUTHOR]

Published

2024

9. Organic Electrolyte Additives for Aqueous Zinc Ion Batteries:Progress and Outlook.

Author

Wang, Conghui, Zhang, Dan, Yue, Shi, Jia, Shaofeng, Li, Hao, Liu, Wanxin, and Li, Le

Subjects

*ENERGY storage, *ZINC ions, *ECONOMIC efficiency, *DENDRITIC crystals, *ELECTROLYTES, *AQUEOUS electrolytes

Abstract

Aqueous zinc ion batteries (AZIBs) are considered one of the most prospective new‐generation electrochemical energy storage devices with the advantages of high specific capacity, good safety, and high economic efficiency. Nevertheless, the enduring problems of low Coulombic efficiency (CE) and inadequate cycling stability of zinc anodes, originating from dendrites, hydrogen precipitation and passivation, are closely tied to their thermodynamic instability in aqueous electrolytes, which significantly shortens the cycle life of the battery. Electrolyte additives can solve the above difficulties and are important for the advancement of affordable and reliable AZIBs. Organic electrolyte additives have attracted widespread attention due to their unique properties, however, there is a lack of systematic discussion on the performance and mechanism of action of organic electrolyte additives. In this review, a comprehensive overview of the application of organic electrolyte additives in AZIBs is presented. The role of organic electrolyte additives in stabilizing zinc anodes is described and evaluated. Finally, further potential directions and prospects for improving and directing organic electrolyte additives for AZIBs are presented. [ABSTRACT FROM AUTHOR]

Published

2024

10. GaLeCumb Extracts as Termite Repellent.

Author

Illana, Kyla Mae B., Kitagawa, Diana Shiara Jen B., Panganiban, Vianca Yzabelle M., Tapulao, Ashley Jade C., and Delos Santos, Venice S. J.

Abstract

Termites cause structural damage to residential and commercial buildings. Chemical repellents are commonly used to address this issue, but concerns have been raised regarding their long-term effects on health and the environment. Customers have complained with the repellents' odor and the discoloration on wood surfaces. Alternative solutions may have been explored in previous studies, limited research has been done on a combination of garlic, lemon, and cucumber extracts (GaLeCumb). To address this, the study explored the effectiveness and acceptability of GaLeCumb as an alternative organic repellent in terms of repelling termites, duration, odor, and discoloration, compared to the commercial product. The gathering of numerical data through a quantitative method began after steam distillation and formulation of three repellents were done. Following this was a 14-day observation where 4 single-choice tests were performed to evaluate termite repellency. It was revealed that Formulation 2 had the best formulation. Fifteen woodworking experts were purposely sampled as respondents of the study. In the analysis of results, it was revealed that the developed repellent was effective in repelling a high percentage of termites all throughout 24 hours. In addition, data showed that there is a significant difference between the commercially done product (SD = 3.28) and the GaLeCumb Termite Repellent (SD = 1.22). Mean scores showed that GaLeCumb Termite Repellent was "very much acceptable" in terms of both odor (M = 3.98) and discoloration (M = 3.7). These findings contribute valuable insights for future researchers, addressing gaps and limitations in the field of termite repellent. [ABSTRACT FROM AUTHOR]

Published

2024

11. Pengaruh Dosis Nitrogen dan Bahan Organik Terhadap Pertumbuhan dan Hasil Tanaman Wortel (Daucus carota L.) Varietas Gundaling.

Author

Kaban, Gabriella and Barunawati, Nunun

Abstract

Carrots are a root vegetable which has a high nutritional content such as vitamins A, B1, C. Increasing carrot production can be done by administering a dose of nitrogen with the addition of organic material in the form of manure. Carrot plants affect the physical properties of loose and crumbly soil for the growth and development of tubers. Nitrogen fertilizer is able to influence plant length, leaf length, plant leaf weight, and plant diameter and is able to influence carrot plant height, tuber length, tuber weight. The purpose of this study was to study the interaction of N fertilizer doses and organic matter on the growth and yield of carrot plants. The research was conducted from February to June 2023 in Tulungrejo Village, Bumiaji District, Batu City, East Java. The tools used are meters, digital scales, calipers and documentation tools. While the ingredients are carrot seeds, chlorpyrifos insecticide, urea fertilizer and goat manure. This research is a factorial experiment designed using a randomized block design (RAK) consisting of 2 factors and repeated 3 times. The first factor is the dose of fertilizer. The first factor (N) is N fertilizer which consists of 3 levels, namely 100 kg ha-1, 125 kg ha-1, 150 kg ha-1. The second factor (K) is the dose of goat manure consisting of 3 levels, namely 0 ton ha-1, 20 ton ha-1 dan 40 ton ha-1. The results of the research showed that there was an interaction between the dose of nitrogen fertilizer and goat manure on carrot crop yields in the form of total weight per plant, tuber weight per plant, tuber diameter, tuber length, tuber weight per plot and tuber weight per hectare. [ABSTRACT FROM AUTHOR]

Published

2024

12. Productivity of Wheat Landraces in Rainfed and Irrigated Conditions under Conventional and Organic Input in a Semiarid Mediterranean Environment.

Author

Scandurra, Alessio, Corinzia, Sebastiano Andrea, Caruso, Paolo, Cosentino, Salvatore Luciano, and Testa, Giorgio

Subjects

*EMMER wheat, *WEED control, *MEDITERRANEAN climate, *AGRICULTURE, *GRAIN yields

Abstract

Wheat landraces are locally adapted populations that are suitable for low-input agronomic management and constraining pedo-climatic conditions. The productivity of landraces under high-input and optimal conditions is usually lower than modern wheat varieties. The present study compared the response of Sicilian wheat landraces and modern varieties to organic management, including organic fertilization, and conventional management, including mineral fertilization and chemical weed control, under rainfed condition and supplementary irrigation in a field trial conducted on a xerofluvent soil in a semiarid Mediterranean climate. Modern varieties were on average more productive than landraces, although certain landraces achieved comparable yields, in particular under organic management. The increase in grain yield under conventional management in comparison with the organic management was higher for modern varieties than landraces. The loss of productivity in rainfed conditions was lower for landraces compared to modern varieties. The grain quality traits were similar between landraces and modern varieties and in both cases the conventional management led to an improvement of the traits. These findings highlight the resilience and adaptability of traditional wheat landraces to low-input agricultural systems and offer valuable insights into improving the sustainability and productivity of wheat production in Mediterranean environments. [ABSTRACT FROM AUTHOR]

Published

2024

13. A multifunctional life cycle assessment of durum wheat cropping systems.

Author

Zingale, Silvia, Ingrao, Carlo, Reguant-Closa, Alba, Guarnaccia, Paolo, and Nemecek, Thomas

Subjects

*ENVIRONMENTAL impact analysis, *CROP rotation, *CROPPING systems, *AGRICULTURE, *PRODUCT life cycle assessment, *TILLAGE

Abstract

Agricultural systems strongly impact ecosystems by driving terrestrial degradation, water depletion, and climate change. The Life Cycle Assessment allows for comprehensive analyses of the environmental impacts of food production. Nonetheless, its application still faces challenges due to cropping systems' increased complexity and multifunctionality. Past research has emphasized the need for more holistic approaches to consider dynamic crop interactions and diverse functions of cropping systems, beyond just meeting the demand for foods and feeds. In this context, this study applied an alternative combined and multifunctional modelling approach to compare the environmental performances of two durum wheat cropping systems. The latter differed in crop rotation schedules, farming methods, tillage techniques, and genotypes grown (including both modern and old ones). Novel methodological choices were adopted in this study, aiming at best representing the complexity and peculiarities of these systems, by considering crop rotation effects and reflecting the main durum wheat stakeholders' perspectives. The results showed that the organic low-input landrace-growing system (Case 1) had considerably lower environmental impacts than the conventional high-input one (Case 2), regardless of the functional unit. The environmental hotspots were the increased land occupation and the bare fallow for Case 1 and Case 2, respectively. At the endpoint level, the most affected impact categories for both the systems of analysis were land use, fine particulate matter formation, global warming (human health), and human non-carcinogenic toxicity. Also, the midpoint analysis pointed out important differences in terms of other assessed impact categories, with Case 1 better performing for the majority of them. The identified improvement solutions include the following: the enhancement of the yield performances and the optimization of nitrogen provision from the leguminous crop for Case1, the shift toward a more efficient rotational scheme, the reduction of the use of external inputs, and the avoidance of unnecessary soil tillage operations for Case 2. [ABSTRACT FROM AUTHOR]

Published

2024

14. Beneath the disorder: Unraveling the impacts of doping on organic electronics and thermoelectrics.

Author

Tolton, Andrew and Akšamija, Zlatan

Subjects

ELECTRONIC density of states, CARRIER density, THERMOELECTRIC power, ORGANIC electronics, FERMI level

Abstract

Organic materials have found widespread applications but require doping to overcome their intrinsically low carrier concentration. Doping injects free carriers into the polymer, moving the position of the Fermi level, and creates coulombic traps, changing the shape of the electronic density of states (DOS). We develop equations to explicitly map the DOS parameters to the Seebeck vs conductivity relationship. At low carrier concentrations, this relationship is a universal slope - k B / q , while at higher carrier concentrations, the slope becomes dependent on the shape of the DOS. We conclude that, at high doping, a heavy-tailed DOS leads to higher thermoelectric power factors. [ABSTRACT FROM AUTHOR]

Published

2024

15. Cover crop quality and quantity influences organic corn performance more than soil context.

Author

KC, Rabin and Snapp, Sieglinde

Abstract

Cover cropping is a common practice among organic growers, well-known for its potential to supply nitrogen (N) to subsequent cash crops. Uncertainties and challenges exist in understanding how cover crops interact with soil properties and management practices across organic farms to supply N, and if such N supply is synchronous with subsequent cash crop N demand. An on-farm study examined cereal rye (Secale cereale) versus crimson clover (Trifolium incarnatum) planted before corn (Zea mays L.) in five organic farms in Michigan with a range of soil properties and management practices. High quality crimson clover residue [Carbon (C):N ratio 15:1] was associated with higher soil inorganic nitrogen, corn chlorophyll content, tissue N content, and grain yields relative to low quality cereal rye residue (C:N ratio 25:1). There were several lines of evidence that low quality cereal rye residue coupled with substantial biomass and a dry season limited N release during peak corn N demand. Nitrogen uptake efficiency (NUE, ratio of total N removed by corn to total N input) was above 1 for corn farms with low soil organic matter (SOM), active N and C pools, and lower than 1 for farms with high SOM and active N and C pools. Overall, cover crop biomass and cover crop quality was a more important driver of corn performance than background SOM content in organic corn farms. Our research highlights the challenges of ensuring sufficient N supply in organic field production, and the importance of planting a legume cover crop before corn. [ABSTRACT FROM AUTHOR]

Published

2024

16. Achieving the Birefringence Optimization by Methyl Modulation in Organic Nonlinear Optical Crystals.

Author

Yang, Dongling, Sha, Hongyuan, Wang, Zujian, Su, Rongbing, He, Chao, Su, Bin, Yang, Xiaoming, and Long, Xifa

Subjects

*SECOND harmonic generation, *HYDROGEN bonding, *HYDROGEN atom, *METHYL groups, *STRUCTURAL design

Abstract

Non‐centrosymmetric organics are promising nonlinear optical (NLO) candidates, which always exhibit a short UV absorption cutoff edge, and a strong second harmonic generation (SHG) response, but an overlarge birefringence. Here, in order to optimize the birefringence, the methyl modulation of π‐conjugated organic planar units is proposed and implemented with the urea structure as a template. Thus, N‐methylurea and N,N'‐dimethylurea crystals are obtained by partially replacing hydrogen atoms with methyl groups. This replacement reduces hydrogen donors and weakens interchain hydrogen bonds, which facilitates the decreasing density and the parallel arrangement of π‐conjugated planar units. Hence, both N‐methylurea and N,N'‐dimethylurea crystals exhibit not only an optimized birefringence (N‐methylurea ≈0.099 and N,N'‐dimethylurea ≈0.072 at 546 nm) but also an enhanced SHG response (N‐methylurea ≈1.2 × β‐BaB2O4 and N,N'‐dimethylurea ≈1.9 × β‐BaB2O4), while maintaining a short UV absorption cutoff edge. Therefore, this work provides a novel strategy for the structural design and performance modulation of organic NLO crystals. [ABSTRACT FROM AUTHOR]

Published

2024

17. Unraveling the volatile metabolites and potential plant-stimulating properties of organically extracted Caulerpa racemosa.

Author

Lalruatfeli, Pachuau, Krishnan, Ramanujam, Janaki, Ponnusamy, Suganthy, Mariappan, Djanaguiraman, Maduraimuthu, and Kalpana, Rengabashayam

Subjects

HIERARCHICAL clustering (Cluster analysis), PRINCIPAL components analysis, ORGANIC solvents, DISCRIMINANT analysis, METABOLITES

Abstract

Seaweed is an increasingly recognized source of secondary metabolites with a significant role as a plant biostimulant. With the rising popularity of organic farming, there is a pressing need to investigate the utilization of organic solvents derived from natural sources for seaweed extraction. Understanding the composition of these extracts is crucial for elucidating their role as biostimulants in plant growth. Hence, the present study aimed to explore the phytochemical composition and untargeted metabolomics of four extracts of Caulerpa racemosa (SW), prepared organically using vinegar, fermented buttermilk, and cow urine, in comparison with the conventionally used solvent, water. Approximately 95 volatile metabolites that belong to 22 chemical classes were identified through GC--MS analysis. The major classes detected include benzene and its substituted derivatives (24%), fatty acyls (17%), phenols (12%), benzofurans (8%), organo-oxygen compounds (6%), steroids and steroid derivatives (5%), and indole and its derivatives (4%). A significant shift in the composition of volatile metabolites was observed among the organic extracts as determined through a combination of various statistical analyses. A principal component analysis (PCA) highlighted seven principal components (PCs), which accounted for 99.9% of the total variance. Hierarchical cluster analysis delineated two distinct clusters, which signify a clear differentiation among the organic extracts. Furthermore, partial least squares discriminant analysis (PLS-DA) highlighted 49 volatile metabolites of significant importance, evident from variable importance in projection (VIP) scores of more than 1. These results underscore the intricate and distinct metabolomes inherent in Caulerpa racemosa organic extracts, hinting at their potential as biostimulants for plant growth. This study establishes a foundation for deeper investigations into seaweed extraction utilizing easily accessible organic solvents, presenting potential benefits for farmers. [ABSTRACT FROM AUTHOR]

Published

2024

18. Agro-ecological transition in rural settlement in Chapada dos Veadeiros.

Author

Ferreira Farias, Luciano, Guimarães Soares, João Paulo, Resende Junqueira, Ana Maria, and Vitória Malaquias, Juaci

Abstract

Copyright of Revista de Economia e Sociologia Rural is the property of Sociedade Brasileira de Economia e Sociologia Rural 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

19. Drinking Water and Biofilm as Sources of Antimicrobial Resistance in Free-Range Organic Broiler Farms.

Author

Piccirillo, Alessandra, Tolosi, Roberta, Mughini-Gras, Lapo, Kers, Jannigje G., and Laconi, Andrea

Subjects

THIRD generation cephalosporins, POULTRY farms, MICROBIAL communities, DRINKING water, ORGANIC farming

Abstract

Drinking water distribution systems (DWDSs) represent an ideal environment for biofilm formation, which can harbor pathogenic and antimicrobial-resistant bacteria. This study aimed to assess longitudinally the microbial community composition and antimicrobial resistance (AMR), as determined by 16S rRNA NGS and qPCR, respectively, in drinking water (DW) and biofilm from DWDSs, as well as faeces, of free-range organic broiler farms. The role of DWDSs in AMR gene (ARG) dissemination within the farm environment and transmission to animals, was also assessed. DW and biofilm microbial communities differed from those of faecal samples. Moreover, potentially pathogenic and opportunistic bacteria (e.g., Staphylococcaceae) were identified in water and biofilms. High prevalence and abundance of ARGs conferring resistance to carbapenems (i.e., blaNDM), 3rd and 4th generation cephalosporins (i.e., blaCMY-2), (fluoro)quinolones (i.e., qnrS), and polymyxins (i.e., mcr-3 and mcr-5) were detected in DW, biofilm, and faecal samples, which is of concern for both animal and human health. Although other factors (e.g., feed, pests, and wildlife) may contribute to the dissemination of AMR in free-range organic poultry farms, this study indicates that DWDSs can also play a role. [ABSTRACT FROM AUTHOR]

Published

2024

20. Impact of Package Type on Selected Health Quality Parameters of Organic, Conventional and Wild Raspberries (Rubus idaeus L.) Frozen Stored.

Author

Kotuła, Marta, Kapusta-Duch, Joanna, Dziadek, Michał, Nowak, Ewelina, Borczak, Barbara, and Dziadek, Kinga

Subjects

NUTRITIONAL value, PACKAGING film, POLYSACCHARIDES, NATURAL products, FUNCTIONAL foods, FRUIT extracts

Abstract

Functional foods and the nutritional value of products are now very relevant for consumers. Additionally, interest in biodegradable components made from natural products has recently increased. The aim of this study was to determine the effect of different package types (with addition of films made of biopolymers enriched with natural extracts of ginger, cinnamon, and turmeric) on antioxidative properties of conventional, organic, and wild-grown raspberry fruit during frozen storage for 1-, 4-, 8-, and 12-month periods. The content of total polyphenol and anthocyanins, as well as antioxidant activity, were studied. Additionally, structural (FT-IR and UV-Vis), mechanical (tensile strength and elongation), and surface wetting angle tests of used films were studied. In all crop types, polyphenol content increased at 8 and 12 months of frozen storage in packages with an addition of biopolymer films. There was a statistically significant increase in the amount of total polyphenols in the last month of storage in the package with films with added cinnamon extract. In contrast, packages with ginger-enriched films contributed to an increase in polyphenols only in organically grown and wild raspberry fruit at the 4th, 8th, and 12th month and 8th and 12th month, respectively. The addition of films with turmeric extract increased the polyphenol content in the 8th month of frozen storage of organically grown raspberry fruit and in the 12th month of wild-grown raspberry. During frozen storage of wild raspberry fruit, an increase in anthocyanin content was observed in all cases in the 12th month. This result was almost twice as high as in the control sample. The greatest rise in the content of anthocyanins occurred when packages with films with turmeric extract were applied. Tendencies presented by this paper are not clear-cut in cases of antioxidant activity of analysed raspberries. A common feature was that, in general, after 12 months of storage, raspberries from all crops had higher and statistically significant antioxidant values compared to the first month of storage. Studies on the biocomposite films have shown that the structure of chitosan and alginate polymers was partly decomposed after 12 months, and the natural extracts and raspberry crops used had different effects on the mechanical properties of the biocomposites films. Based on the results of research that has been carried out, it can be concluded that it has not been clearly proven whether the addition of polysaccharide films to packages contributes to the increase in bioactive compounds during frozen storage. [ABSTRACT FROM AUTHOR]

Published

2024

21. When Cows Become Heroes: The Construction of Animal Subjectivity and Environmental Sustainability in the Swedish Organic food Sector.

Author

Velander, Josefin

Subjects

FOOD industry, ORGANIC foods, SUSTAINABILITY, COWS, ANIMAL products, LIVESTOCK productivity

Abstract

An escalating consumption of animal products characterizes contemporary Western society, resulting in severe environmental consequences and heightened exploitation of animals. Among these issues, livestock production stands out as particularly detrimental due to its significant climate impact and land usage. Paradoxically, the Swedish organic food sector positions cattle as central to achieving sustainable food production. This article delves into the strategies employed by organic organizations to legitimize the consumption of cattle's meat and dairy. The aim is to examine how Swedish organic organizations produce knowledge of sustainability, and how these sustainability constructions are intertwined with anthroparchy, a system of power relations between humans and cattle. Furthermore, the study investigates how cattle's agencies and bodies are portrayed. Interviews, documents and media material from organic organizations in Sweden are analyzed to explore how carnism, norms of eating cattle's meat and dairy, is maintained. The analytical framework applied is rooted in critical animal studies and draws inspiration from Foucauldian discourse analysis, examining the interplay between power and knowledge. The findings reveal that certain environmental aspects are emphasized to reinforce the norm of keeping cattle for food production, while other dimensions are overlooked. Organic organizations represent cows as active subjects transforming their environment to legitimize their status as consumable commodities. The findings also show how carnistic norms limit the organic sector's ability to achieve environmental objectives. This study underscores how anthroparchy, the dominant power structures between humans and cattle, is reproduced in the Swedish organic context through sustainability discourses that emphasize the subjectivities of cattle. [ABSTRACT FROM AUTHOR]

Published

2024

22. Willingness of West African Consumers to Buy Food Produced Using Black Soldier Fly Larvae and Frass.

Author

Traore, Ousmane, Zaato, Paul Alhassan, Baidoo, Jessica Kukua, Feleke, Shiferaw, Manyong, Victor, Abdoulaye, Tahirou, Djouaka, Rousseau, Schreinemachers, Pepijn, and Ba, Malick Niango

Subjects

HERMETIA illucens, ORGANIC wastes, WILLINGNESS to pay, ANIMAL feeds, SOLID waste

Abstract

The use of black soldier fly (BSF) larvae and frass in agriculture can make an important contribution to food and nutrition security. However, it is important to understand whether consumers are willing to consume food products resulting from the use of BSF larvae as animal feed or BSF frass as fertilizer. This study employed the stated preference approach as food products produced using BSF larvae and frass are not currently available on the market. Questionnaires were administered to a total of 4412 consumers in Ghana (1360), Mali (1603), and Niger (1449). The results show that the vast majority of respondents are willing to consume vegetables (88%) produced using BSF frass and meat (87%) produced using animal feed made of BSF larvae. A smaller percentage of respondents are even willing to pay USD 1.32 and USD 1.7 more if the base price of BSF-based products were USD 5 per kg. Age, gender, education, and country positively influenced the respondents' willingness to consume food produced using BSF products. In contrast, neighborhood status, income, and household size are inversely related to the respondents' willingness to pay for and consume these products. Our findings are, therefore, important to scaling up BSF technologies in the region. [ABSTRACT FROM AUTHOR]

Published

2024

23. A New Nonaqueous Flow Battery with Extended Cycling.

Author

Yue, Diqing, Zhang, Weilin, Zhao, Ivy, Fang, Xiaoting, Zhao, Yuyue, Li, Jenny, Zhao, Feng, and Wei, Xiaoliang

Subjects

FLOW batteries, HIGH voltages, ENERGY density, BRITTLENESS, OXIDATION-reduction reaction

Abstract

Nonaqueous flow batteries hold promise given their high cell voltage and energy density, but their performance is often plagued by the crossover of redox compounds. In this study, we used permselective lithium superionic conducting (LiSICON) ceramic membranes to enable reliable long-term use of organic redox molecules in nonaqueous flow cells. With different solvents on each side, enhanced cell voltages were obtained for a flow battery using viologen-based negolyte and TEMPO-based posolyte molecules. The thermoplastic assembly of the LiSICON membrane realized leakless cell sealing, thus overcoming the mechanical brittleness challenge. As a result, stable cycling was achieved in the flow cells, which showed good capacity retention over an extended test time. [ABSTRACT FROM AUTHOR]

Published

2024

24. Specific Featuires of Spacial Diffusion in Organic Agriculture

Author

D. G. Galkin

Subjects

innovation, space, hagerstrand theory, organic, Economics as a science, HB71-74

Abstract

The article substantiates the hypothesis of conformity of organic agriculture proliferation in Russia and key provisions of Hagerstrand theory of innovation diffusion. To verify the hypothesis stages of innovation spacial diffusion and organic agriculture in Russia were compared. This comparison made it possible to identify key stages of organic sector location, subdivide organic product producers into innovators and followers and find their specialization and efficiency of work. Findings of the research showed conformity of first 2 stages of organic agriculture diffusion and stages of Hagerstrand theory: 1) emergence of innovators around cities and agglomerations with high level of innovation potential and 2) proliferation of followers. At the 1st stage we could see concentration of innovators in the central part of the country and in west Siberia. The 2nd stage is connected with turning-up of followers, who are mainly located in regions adjoining those of innovators and in the south of the country. Principle kinds of activity of those organizations that were certified by Ogranic standards were studied, they: 1) grow and process agricultural crops; 2) conduct mixed agriculture; 3) produce hot drinks; 4) collect wild fruits and berries; 5) produce meat and milk. Producers of plant-growing produce orient to home and foreign markets. Producers of meat, milk and hot drinks orient to home market. Organizations with the highest profitability of produce being sold specialize in mixed agriculture and collecting of wild fruits and berries. The max figures of sale profitability by net profit and asset profitability by net profit are typical of organizations dealing with collecting of wild fruits and berries. In the short run followers are not observed. Taking into account the specific features of spacial diffusion of organic agriculture that were identified, transition to the 3rd stage (consolidation) in Hagerstand theory can be feasible in the long-term period and will be affected by state policy.

Published

2024

25. Hormetic response of blackgram (Vigna mungo) seeds treated with organic extract of seaweeds

Author

Pachuau Lalruatfeli, Ramanujam Krishnan, Ponnusamy Janaki, Mariappan Suganthy, Maduraimuthu Djanaguiraman, and Rengabashyam Kalpana

Subjects

Seaweed, organic, extraction, black gram, hormesis, Agriculture

Abstract

Seaweed extract has gained popularity in agriculture due to global trend of promoting sustainable agricultural development. Seaweed contains phytohormones such as IAA and gibberellin and minerals that induce seeds germination. While conventional extraction of seaweeds has been carried out with different organic solvents such as ethanol and methanol, the present study uses natural and commonly available organic liquids i.e., water, vinegar, fermented buttermilk, and cow urine as extracting agents to make them suitable for regenerative agriculture. The organic solvents used in this study have a known nutritional composition and facilitate the enhancement of plant defense systems. Three seaweed species, Caulerpa racemosa, Gracilaria edulis, and Sargassum wightii, were extracted with different solvents at various concentrations and compared. The mineral analysis and FTIR characterization of different seaweeds and their extracts showed variation in composition and functional groups. Seaweed species, however, showed no variation in seed germination. Fermented buttermilk and water extract improved the germination properties of blackgram between 0.1–5% concentrations and led to higher increase in shoot and root length and biomass yield. The hormetic response by blackgram to the seaweed extract was observed starting at an average of 2% concentration with toxicity at 5% concentration and above for water and fermented buttermilk extract. However, vinegar and cow urine extracted seaweed showed toxicity symptoms even at lower concentrations (0.1%) inhibiting germination. Therefore, water and buttermilk extract may be recommended at 0.5–1% for enhanced germination.

Published

2024

26. Natural Food

Author

Kideckel, Michael S.

Published

2024

27. Effect of modified atmosphere storage conditions on seed quality and longevity of Kabuli chickpea varieties

Author

Shinde, Pavan and Hunje, Ravi

Published

2024

28. Sustaining Soil Health in High Tunnels: A Paradigm Shift toward Soil-centered Management.

Author

Fils Pierre, Jacques, Jacobsen, Krista L., Wszelaki, Annette, Butler, David, Velandia, Margarita, Woods, Timothy, Sideman, Rebecca, Grossman, Julie, Coolong, Timothy, Hoskins, Bruce, Biscaia Ribeiro da Silva, Andre Luiz, Ginakes, Peyton, Kleinhenz, Matt, Xin Zhao, Rivard, Cary, and Rudolph, Rachel E.

Subjects

SOIL fertility management, SOILBORNE plant pathogens, CONSERVATION of natural resources, SOIL compaction, SOIL salinity

Abstract

This review was conducted to synthesize current knowledge, learn producer and Extension specialist perspectives, and identify gaps in understanding of the role of soil health in sustaining production in high tunnel (HT) systems. This synthesis includes findings from scholarly resources related to soil health in HTs, including research and Extension-based literature, perspectives from experienced HT producers and technical assistance providers, and the direct observations of a broad network of university research and Extension personnel working with HTs. Findings are intended to identify knowledge gaps and additional research and Extension resource needs of greatest priority to the HT producer community and technical assistance providers that support them at the time of publication. A review of 68 research articles and 58 Extension resources was conducted. Focus group interviews were conducted with small groups of experienced HT farmers in four regions of the eastern half of the United States, with in-depth farm case studies conducted in individual farmers in three of these regions. Growers across regions identified soil fertility management, soil borne diseases, soil compaction, and lack of consistency of soil analyses specific to HTs as the greatest soil-related challenges to HT production. Research and resources for technical assistance providers on mitigation strategies to remediate yield- limiting HT soil conditions, such as excessive soil salinity and high pathogen populations, were also lacking. As such, process-based research on techniques such as leaching, soil steaming, solarization, and anaerobic soil disinfestation in tunnels that consider short- and long-term costs, benefits, and effects on soil and plant productivity should be prioritized in the future when considering the impact of HT production on soil health. Interviews also indicated a need for networking opportunities for technical assistance providers across agencies (e.g., Natural Resources Conservation Service, Extension, nongovernmental organizations). Despite a high and increasing rate of adoption, there is currently a lack of information about maintaining HT systems. Given that HTs play a critical and growing economic role for specialty crop growers throughout the eastern United States, comprehensive intervention across the research--Extension spectrum to sustain productivity in HT systems is recommended. [ABSTRACT FROM AUTHOR]

Published

2024

29. Effect of pre‐aging intermediate layers on the performance of multi‐layer organic photovoltaic devices.

Author

Su, Emma, Tetreault, Adam R., Zheng, Lili, Riahinezhad, Marzieh, Lopez‐Carreon, Itzel, Esmizadeh, Elnaz, Collins, Peter, and Bender, Timothy P.

Subjects

CELLULAR aging, MANUFACTURING cells, NOBLE gases, INVESTIGATION reports, HIGH temperatures

Abstract

Understanding the degradation behaviour of organic photovoltaic (OPV) devices is an essential part to improve their stability prior to massive production. Accelerated aging can help to assess their stability and study the underlying degradation mechanisms of OPVs. Most studies focus on individual layers or a full device, and little is known about the role a pre‐aged layer stack plays in the performance of a device. Herein, we report the investigation of the effects of pre‐aging of multiple layers on the performance of OPVs. Instead of aging a single layer or an entire stack (sequential layers: ITO/PEDOT:PSS/MoOx/F‐BsubPc/C60/BCP/Ag), our process involved aging the intermediate layer stack for 24 h after depositing a specific layer before continuing with the subsequent depositions to fully fabricate/manufacture OPVs. Aging was conducted under four controlled conditions considering parameters including moisture, gas type, and temperature in the absence of light according to the International Summit on Organic Photovoltaic Stability (ISOS) protocols. Short of PEDOT:PSS we found that multiple layers, being subjected to the parameters, resulted in a decline in OPV device performance after being fully manufactured. Device performance is evaluated based on short‐circuit current density (Jsc), power conversion efficiency (PCE), and open‐circuit voltage (Voc). Our analysis provides insight into the degradation mechanisms of layered/planar OPV structures and offers strategic guidance for optimizing fabrication processes, particularly during the layer deposition transitions. We recommend that during OPV vacuum deposited fabrication, intermediate layers should be protected from moisture, O2, high temperature, and even inert gases, preferably in a low‐vacuum environment. [ABSTRACT FROM AUTHOR]

Published

2024

30. Greenhouse study and interviews indicate glyphosate residue via feed-feces-fertilizer route is a risk for horticultural producers using manure-based fertilizer

Author

Traci Birge, Irma Saloniemi, Kari Saikkonen, and Marjo Helander

Subjects

Glyphosate-based herbicide, Agrochemical pollution, Horticulture, Sustainable agriculture, Circular economy, Organic, Environmental sciences, GE1-350, Environmental law, K3581-3598

Abstract

Abstract Background The herbicide glyphosate is the most widely used active ingredient in pesticides globally. Residues have been found in people, livestock, food and animal feed, and in the environment, but little is known about glyphosate residue in manure-based fertilizer. We describe a feed-feces-fertilizer route of glyphosate contamination with negative impacts for horticultural production. This exposure can harm sensitive plants, such as tomato, and pose a risk to effective waste disposal and nutrient cycling along principles of the circular economy. We review the use and history of glyphosate and present a mixed methods research based on a real-world case from Finland where glyphosate residue in poultry manure fertilizer was suspected of inhibiting commercial organic tomato production. To test the fertilizer, we grew 72 ‘Encore’ variety tomato plants for 14 weeks in a climate-controlled greenhouse according to the practices of the commercial grower. To ascertain awareness and potential contamination mitigation measures, we contacted five fertilizer companies with sales of biogenic fertilizer in Finland, two farming organizations, a feed company, and two government organizations working on nutrient cycling and agricultural circular economy. Results The total harvest of tomatoes grown with fertilizer with the higher content of glyphosate residue was 35% smaller and the yield of first-class tomatoes 37% lower than that of the control, with lower glyphosate concentration. Two of the five fertilizer companies identified poultry manure as a source of glyphosate contamination. Companies with awareness of pesticide residues reported interest in establishing parameters for pesticide residues. Conclusions The extent of glyphosate contamination of recycled fertilizers is unknown, but this study shows that such contamination occurs with negative impacts on crop production. Lack of testing and regulation to ensure that recycled fertilizers are free from harmful levels of glyphosate or other pesticides creates risks for agricultural producers. The issue is particularly acute for certified organic producers dependent on these products, but also for sustainable transitions away from mineral fertilizers in conventional farming. The example from Finland shows that a model of co-production between fertilizer producers and state regulatory agencies to establish safe limits can benefit both fertilizer producers and their customers.

Published

2024

31. A New Nonaqueous Flow Battery with Extended Cycling

Author

Diqing Yue, Weilin Zhang, Ivy Zhao, Xiaoting Fang, Yuyue Zhao, Jenny Li, Feng Zhao, and Xiaoliang Wei

Subjects

nonaqueous flow battery, organic, permselectivity, LiSICON, stability, Chemistry, QD1-999

Abstract

Nonaqueous flow batteries hold promise given their high cell voltage and energy density, but their performance is often plagued by the crossover of redox compounds. In this study, we used permselective lithium superionic conducting (LiSICON) ceramic membranes to enable reliable long-term use of organic redox molecules in nonaqueous flow cells. With different solvents on each side, enhanced cell voltages were obtained for a flow battery using viologen-based negolyte and TEMPO-based posolyte molecules. The thermoplastic assembly of the LiSICON membrane realized leakless cell sealing, thus overcoming the mechanical brittleness challenge. As a result, stable cycling was achieved in the flow cells, which showed good capacity retention over an extended test time.

Published

2024

32. Study of synergistic behavior during bituminous coal-cow manure co-gasification: The role of intrinsic AAEM and organic matter

Author

Hongqiao Lu, Meng Ma, Juntao Wei, Yonghui Bai, Peng Lv, Jiaofei Wang, Xudong Song, Guanghua Lu, and Guangsuo Yu

Subjects

Co-gasification, AAEM, Organic, Synergistic effect, Reactivity, Mining engineering. Metallurgy, TN1-997

Abstract

Abstract Co-thermal chemical conversion of coal and biomass is one of the important ways to realize efficient and clean utilization of coal. In this study, a typical Ningdong coal-Yangchangwan bituminous coal and cow manure were used to study the synergistic effect of intrinsic alkali, alkaline earth metals (AAEM) and organic matter on the co-gasification of coal and biomass by thermogravimetry analyzer (TG). The results showed that AAEM had obvious synergistic promotion effect on the gasification of a bituminous coal-cow manure mixture in the isothermal gasification (1000 ℃), whereas the organic matter will show the opposite effect on the process. To further investigate the effect of organic matter on the gasification process, the influence of organic matter on non-isothermal (25-1000 ℃) gasification reaction was investigated with heating rate of 10 ℃ /min, the kinetic parameters of the gasification reaction were obtained by Coats-Redfern method. The increase of biomass mass fraction in the sample facilitates the migration of alkali metals from the material to the solid phase. The possible mechanism of the synergistic effect of intrinsic AAEM/organic matter on the co-gasification process was proposed.

Published

2024

33. Assessment of Different Fertilizer Treatments on Growth and Yield of African Marigold Variety Calcuttia Single Without Pinching Operation in Rampur, Chitwan

Author

Sujan Lamichhane, Amrit Poudel, Bhuwan Bhatta, Bishal Khadka, Bishal Chapagain, and Bikash Kandel

Subjects

inorganic, manure, marigold, organic, poultry, vermicompost, Agriculture

Abstract

The research was conducted to assess the impact of various organic and inorganic fertilizers on the growth and yield of Marigold (Tagetes erecta L.) var. Calcuttia Single using a randomized complete block design with eight treatments including vermicompost, farmyard manure, poultry manure, charcoal, NPK fertilizer, and their combinations in triplicates. Measurements of vegetative and reproductive parameters were recorded at 35, 55 and 85 DAT. Results revealed that compared to the control, poultry manure and vermicompost, singly or combined with NPK, significantly enhanced both vegetative and reproductive traits. Poultry manure resulted in the tallest plants (126.21 cm), the highest number of branches (29.93), and the largest flowers (14.11 cm diameter), with the earliest flowering (51.33 days). Vermicompost showed effectiveness in plant height (117.37 cm), number of branches (28.80), plant spread (81.43 cm) and flower number (40.47) The control plot exhibited the least effectiveness in all parameters. These findings highlight the significant role of organic fertilizers in enhancing the growth and yield of Marigold (Tagetes erecta L.) var. Calcuttia Single.

Published

2024

34. Chemical Composition and Acceptability of Organic Bath Soap among Students in Yaba College of Technology, Yaba, Lagos State, Nigeria

Author

Ngozi, O. Abiamuwe, Jummai S. Seriki-Mosadoloru, Rhoda O. David, and Felicia Maduabum

Subjects

acceptability, bath soap, chemicals, organic, students, Home economics, TX1-1110

Abstract

The study determined the chemical composition and acceptability of organic bath soap among students in Yaba College of Technology, Yaba, Lagos State, Nigeria. The study was guided by two research questions. Mixed method research design was used for the study. Population was 46 which comprised all Home Economics students from the Department of Vocational Education. In-home use questionnaire was used for data collection. The study produced two samples of turmeric bath soap. Findings showed that the chemical compositions of the turmeric soap samples are in accordance with the specifications of the Standard Organization of Nigeria (SON) with toilet soap specifications of pH ranging from 9 to 11, total fatty matter ranging from 60-75 gm and total free caustic soda ranging from 0.05 to 0.08 %. Findings showed that the sensory evaluation attributes for colour, smell, consistency foam ability and skin sensitivity were accepted after use for three months as the samples were skin friendly, safe to use without side effects. It was recommended that turmeric body soap and turmeric face gel can be produced in large quantities for commercial purpose as a form of income generation for unemployed graduates.

Published

2024

35. Perbaikan pengelolaan sampah rumah tangga dan sampah kebun di Gampong Meunasah Papeun Kabupaten Aceh Besar [Improving household and garden waste management in Meunasah Papeun Village, Aceh Besar District]

Author

Hafidh Hasan, Sri Haryani, Z Zainabun, Sri Wahyuni, and Hamny Sofyan

Subjects

composting, non-organic, organic, recycling, residue, Social sciences (General), H1-99, Technology

Abstract

The waste problem in Aceh Besar District has been going on for quite some time now, which root cause can be tracked back to the lack of waste collection and treatment facilities compared to its residents’ waste growth. Therefore, the amount of untreated waste continues to increase. Meunasah Papeun Village as one of the villages in Aceh Besar District also faces the same problem, where the facilities and capacity of the Village Waste Management Unit (VWM) cannot keep up with the growth of residents' waste. Untreated waste ends up in illegal dumps or is burned by residents. This has reduced the comfort and quality of the village environment. In this Community Development Program (CDP), an approach was taken to reduce the waste that ended up in landfills through education and training on recycling and composting. The process sorted waste into three categories: organic, non-organic and residual waste. Some organic waste was composted and the rest became residue. Non-organic waste was sorted into recyclable and residual groups. This CDP was carried out in collaboration with Bank Sampah USK (BSU) to collect residents' recyclable waste. The residual was collected by VWM to be sent into the landfill. The residents who participated in these activities were able to cut their waste from a third to more than half. The extra money from recycling that was deposited into BSU was an additional advantage.

Published

2024

36. New developments to form high‐performance and green organic–inorganic abrasives.

Author

Hsu, Shaw L., Patel, Jigneshkumar P., Zhao, Weiwei, Li, Ruixia, and Wu, Dacheng

Subjects

*PHENOLIC resins, *NUCLEAR magnetic resonance, *POISONS, *ABRASIVES, *HIGH temperatures

Abstract

Organic–inorganic composites have important applications, especially in the area of bonded abrasives. They exhibit mechanical performances that cannot be achieved with organic materials alone and present an extremely stable performance, even at elevated temperatures. In this summary of our studies, we focus on the exceptional mechanical properties achieved by incorporating inorganic particles into a crosslinked matrix consisting of phenolic resin. A crosslinker such as hexamethylenetetramine reacts with the phenolic resins to form a stable 3‐dimensional matrix to "glue" the inorganic particles together. In order to achieve such uniform dispersion of the seemingly incompatible reacting components, a plasticizer, or wetting liquid, is usually employed. We have developed several environmentally appropriate wetting liquids that have proved to be superior to the traditionally used toxic substances. Some of the reactive wetting liquids used even enhanced the mechanical properties of the resulting composites by contributing additional crosslinks to the final reacted systems. A combination of techniques including the use of low‐field nuclear magnetic resonance has been used to characterize the curing process and assess the changes in mechanical properties at the molecular level. Detailed studies characterized the effects of moisture on the curing process and changes in mechanical properties. [ABSTRACT FROM AUTHOR]

Published

2024

37. Greenhouse study and interviews indicate glyphosate residue via feed-feces-fertilizer route is a risk for horticultural producers using manure-based fertilizer.

Author

Birge, Traci, Saloniemi, Irma, Saikkonen, Kari, and Helander, Marjo

Subjects

AGRICULTURAL economics, SUSTAINABLE agriculture, FARM management, PESTICIDE residues in food, WASTE management, GLYPHOSATE

Abstract

Background: The herbicide glyphosate is the most widely used active ingredient in pesticides globally. Residues have been found in people, livestock, food and animal feed, and in the environment, but little is known about glyphosate residue in manure-based fertilizer. We describe a feed-feces-fertilizer route of glyphosate contamination with negative impacts for horticultural production. This exposure can harm sensitive plants, such as tomato, and pose a risk to effective waste disposal and nutrient cycling along principles of the circular economy. We review the use and history of glyphosate and present a mixed methods research based on a real-world case from Finland where glyphosate residue in poultry manure fertilizer was suspected of inhibiting commercial organic tomato production. To test the fertilizer, we grew 72 'Encore' variety tomato plants for 14 weeks in a climate-controlled greenhouse according to the practices of the commercial grower. To ascertain awareness and potential contamination mitigation measures, we contacted five fertilizer companies with sales of biogenic fertilizer in Finland, two farming organizations, a feed company, and two government organizations working on nutrient cycling and agricultural circular economy. Results: The total harvest of tomatoes grown with fertilizer with the higher content of glyphosate residue was 35% smaller and the yield of first-class tomatoes 37% lower than that of the control, with lower glyphosate concentration. Two of the five fertilizer companies identified poultry manure as a source of glyphosate contamination. Companies with awareness of pesticide residues reported interest in establishing parameters for pesticide residues. Conclusions: The extent of glyphosate contamination of recycled fertilizers is unknown, but this study shows that such contamination occurs with negative impacts on crop production. Lack of testing and regulation to ensure that recycled fertilizers are free from harmful levels of glyphosate or other pesticides creates risks for agricultural producers. The issue is particularly acute for certified organic producers dependent on these products, but also for sustainable transitions away from mineral fertilizers in conventional farming. The example from Finland shows that a model of co-production between fertilizer producers and state regulatory agencies to establish safe limits can benefit both fertilizer producers and their customers. [ABSTRACT FROM AUTHOR]

Published

2024

38. Enhancing Sustainable Cultivation of Organic Bell Pepper through Fulvic Acid (FA) Application: Impact on Phytochemicals and Antioxidant Capacity under Open-Field Conditions.

Author

Kanabar, Pinkky, Wu, Ying, and Nandwani, Dilip

Abstract

Fulvic acid (FA) is an eco-friendly solution for reducing the reliance on agrochemicals and enhancing crop quality. The study aimed to investigate the impact of soil and foliar application of FA on the phytochemical content and antioxidant properties of organically grown bell peppers at both the green and red stages. Bell pepper cv. Revolution was grown under open-field conditions at the certified organic farm at Tennessee State University, Nashville, with nine treatments and three replications. FA was applied as a soil drench and foliar spray at four different rates (0, 2.3, 5.5, 7.8, 10.9 mL L−1). The fruits were harvested 55 days (green stage) and 86 days after transplantation (red stage). The study showed significant differences (p ≤ 0.05) between the treatment and maturation stage. The foliar treatment of 7.8 mL L−1 resulted in the highest phenolic content in green bell peppers. The highest total flavonoid content in red bell peppers was achieved with a soil treatment of 7.8 mL L−1. Additionally, the highest level of vitamin C in red bell peppers occurred with a soil concentration of 5.5 mL L−1. In conclusion, applying FA as a biostimulant can enhance the quality of organically grown bell peppers, offering promising opportunities for sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

39. Organic Fertilizer Increases the Growth and Productivity of Beta vulgaris L.: An Experimental Study of the Arid Region of Mardan, KP, Pakistan.

Author

Khan, Shiraz, Rauf, Abdur, Abidullah, Syed, Jan, Farooq, Khan, Ikramullah, Khalid, Muhammad, Ali, Sundus, and Khan, Ruby Wali

Subjects

*BEETS, *ORGANIC fertilizers, *ARID regions, *FIELD research, *POTASSIUM, *CHLOROPHYLL

Abstract

The growth and productivity of different varieties of beetroot Beta vulgaris were examined in presence of urea, nitrogen, phosphorus, potassium, compost and salt during the field trial, and the chemical constitution of three different varieties, dark red, ruby queen and detroit-2 was identified quantitatively by spectrophotometer. Ruby queen shows maximum growth as compared to dark red and detroit-2. The application of urea, nitrogen, phosphate, potassium and compost reduces the amount of catalase and total anti- oxidant enzymic potensial while increasing the concentrations of proteins, lipids, and sugars, with high growth and yield. Maximum growth was observed in the presence of urea, while the application of salt inhibited growth in all three varieties. In the nitrogen, phosphorus, potassium and compost-treated plants, nitrogen, phosphorus, and potassium show more growth as compared to compost. Similarly, metabolic contents such as IAA, chlorophyll and phenolic, were found in high concentrations in urea, nitrogen, phosphorus, potassium and compost-treated plants as compared to salt-treated plants. [ABSTRACT FROM AUTHOR]

Published

2024

40. Dietary iron affect innate immunity, hematological and oxidative responses in Nile tilapia (Oreochromis niloticus).

Author

Hermes, Luiza Beatriz, Peixoto, Nilce Coelho, Battisti, Eduardo Kelm, Schneider, Thamara Luísa Staudt, and Lazzari, Rafael

Subjects

*NILE tilapia, *COMPLEMENT activation, *MINERALS in nutrition, *OXIDANT status, FISH weight

Abstract

Iron (Fe) is a crucial mineral for the health of fish. The investigation explored the effects of two different sources of iron (organic and inorganic) and two levels (60 and 85 mg/kg) of Fe on the innate immunity, antioxidant capacity, and hematological responses of Nile tilapia. Fish with an average weight of 16.57 ± 2.25 g were fed three times a day for a duration of seven weeks. A total of 400 fish were distributed among 20 tanks, each with a capacity of 240 L and housing 20 fish. The experiment comprised five treatments, and the experimental design employed was a completely randomized design, which included the following treatments: a basal diet (BD) with no addition of Fe in the premix, 60 mg/kg Inorganic Fe, 60 mg/kg Organic Fe, 85 mg/kg Inorganic Fe, and 85 mg/kg Organic Fe. The results indicated that the use of organic Fe significantly improved the hematocrit levels and mean corpuscular hemoglobin. Conversely, the values of lysozyme decreased in fish that were fed with the organic Fe source. However, the hemolytic activity of the complement system and the production of the superoxide anion test exhibited an increase with the use of organic Fe. Furthermore, the fish that were fed with the 85 mg/kg organic diet demonstrated superior antioxidant responses. In conclusion, the inclusion of organic Fe at a concentration of 85 mg/kg was found to be more efficient for the growth of juvenile Nile tilapia. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of Scallop Shells and Starfish (Asterias amurensis) on Stabilization of Metalloid (As) and Heavy Metal (Pb and Zn)-Contaminated Soil.

Author

Park, Se Hyun, Park, Sang Hyeop, Koutsospyros, Agamemnon, and Moon, Deok Hyun

Subjects

*HEAVY metals, *ABANDONED mines, *POZZOLANIC reaction, *LETTUCE growing, *ENVIRONMENTAL degradation, *SOIL pollution

Abstract

Mining and industrial operations are often associated with metalloid and heavy metal contamination of terrestrial and aquatic ecosystems. Heavy metals can weaken the soil's purification ability to remediate and can accumulate in the human body through crops grown in contaminated soil. In this study, a stabilization method was applied for the remediation of arsenic (As) and heavy metal (Pb and Zn) contaminated soil. Scallop shells (SLS) and starfish (Asterias amurensis, ASF), commonly regarded as waste resource materials, are selected as stabilizers. Proper recycling/reuse measures are required to limit uncontrolled disposal of SLS and ASF, prevent environmental degradation of coastal areas, and take advantage of their high calcium carbonate contents. The stabilizers were processed through −#10 mesh (0.2 mm) and −#20 mesh (0.85 mm) sieves. In addition, calcined stabilizers were produced by calcining SLS and ASF at 900 °C to compare stabilization efficiency based on the presence/absence of high-temperature heat treatment. Each of the three types of processed stabilizers was added to contaminated soil at 2 to 10 wt.%, and the mixtures were subjected to wet curing for 28 days. Extraction with 0.1 N HCl was applied for stabilization efficiency assessment. Crops were cultivated in the stabilized soil to evaluate As and heavy metal immobilization capacity. Analysis by X-ray diffraction (XRD) established that calcite (CaCO3) was observed in the natural materials and quicklime (CaO) in the calcined materials. The stabilization efficiency assessment results showed that treatment with SLS and ASF effectively reduced the elution of Pb and Zn. SLS was effective in immobilizing As, but the application of natural ASF increased the leachability of As due to the presence of organic matter. However, applying calcined ASF effectively immobilized As because the organic matter was removed at high temperatures. When the transition of As and heavy metals to crops was evaluated, Pb concentrations that exceeded the criterion for leafy vegetables were detected in the lettuce grown in contaminated soil. However, Pb was not detected in the lettuce grown in SLS- and ASF-treated soil, confirming the stability of heavy metal immobilization. Scanning electron microscopy–energy dispersive X-ray spectroscopy (SEM-EDX) analysis showed that the pozzolanic reaction is related to heavy metal immobilization, and Ca–As precipitation is related to the immobilization of As. The results of this study verified that SLS and ASF effectively immobilize As and heavy metals (Pb and Zn) around mines and that they can be used safely in agricultural soil. [ABSTRACT FROM AUTHOR]

Published

2024

42. Determining adaptability of farmer bred spring wheat (Triticum aestivum L.) genotypes to Canadian organic production using stability analysis.

Author

Carkner, M. K. and Entz, M. H.

Subjects

*PLANT breeding, *WHEAT, *PLANT breeders, *PLANT adaptation, *RESEARCH personnel, *WHEAT breeding

Abstract

Participatory plant breeding (PPB) is a collaborative process between farmers, plant breeders and researchers to create germplasm specifically bred for target environments. We sought to examine the yield performance and adaptability of genotypes from an organic PPB wheat programme under organic management across the Canadian prairies. We evaluated 25 farmer genotypes and 6 commercial cultivars in locations in Alberta, Saskatchewan and Manitoba, totalling 12 organic environments. The top performers most responsive to higher yield environments were three farmer genotypes (BL34‐SW, BL43C‐TM and BJ13‐GW) and one check cultivar (Vesper). Genotype plus genotype by environment (GGE) biplot analysis indicated that one farmer genotype (BL23‐AS) and one check cultivar (Vesper) demonstrated high yield and greater organic adaptation than other genotypes tested. Two registered cultivars (AAC Brandon and Jake) had low yield and poor adaptation, as did one farmer genotype (PWA10B‐LD). Yield was positively and strongly correlated with height, anthesis and mature biomass and kernel number per unit area. The results provide evidence that early generation farmer selection is an effective breeding strategy for discovering wheat genotypes with high yield and excellent adaptability to organic production systems in Canada. [ABSTRACT FROM AUTHOR]

Published

2024

43. Soil characteristics and management system influence weed–crop competition.

Author

Baraibar, Bàrbara and Knudsen, Clàudia

Subjects

*WEED competition, *SOIL management, *AMARANTHUS palmeri, *ENERGY crops, *WILD oat, *WEEDS, *WHEAT

Abstract

The resource pool diversity hypothesis (RPDH) posits that organic systems that include diverse crop rotations, green manure and organic fertilizers have a greater diversity of resource pools that can alleviate weed–crop competition compared to conventional systems. To test the RPDH, wheat (Triticum aestivum) and wild oats (Avena sterilis) in winter, and maize (Zea mays) and Palmer amaranth (Amaranthus palmeri) in summer, were grown in pots in soils from organic (ORG) and conventional (CONV) fields, with contrasting number of estimated resource pools. A replacement series design with proportions of crop: weed of 0:1, 0.25:0.75, 0.5:0.5, 0.75:0.25 and 1:0 was used. Half of the pots received an organic‐mineral fertilizer (F) and the other half did not (NF). Aerial biomass of all plants was measured. Relative Crowding Coefficient (RCC) and the product of RCC (RCCP) for each crop and weed biomass were estimated by modelling the biomass across crop: weed proportions. RCCP larger than one was used as an indicator of overyielding. In the winter experiment, wheat always outcompeted wild oats and we did not detect overyielding across fields with different number of pools, system or fertilizer. In the summer experiment, we found overyielding in ORG NF fields. Functionally different species like maize and Palmer amaranth may have been extracting nutrients from diverse pools in organic NF fields whereas with the addition of fertilizer, Palmer amaranth outcompeted maize. Biomass of monoculture crop and weed in both experiments were positively correlated with number of estimated pools, even if none of the competition indexes were. Our results provide some support for the RPHD in species that are functionally different but also question the definition and nature of the nutrient pools, as well as emphasize the need for more research in the area. [ABSTRACT FROM AUTHOR]

Published

2024

44. Crop Nutrition and Soil Fertility Management in Organic Potato Production Systems.

Author

Ierna, Anita and Distefano, Miriam

Subjects

SOIL fertility management, ORGANIC farming, SCIENTIFIC literature, GREEN manure crops, CROPS, POTATOES

Abstract

Organic farming is a comprehensive production management system that fosters and improves the health of agroecosystems, encompassing biodiversity, biological cycles, and soil biological activity. The potato (Solanum tuberosum L.) is a crucial crop in organic farming systems, standing out as one of the most highly demanded organic products on the market. Among all crops, with potatoes, there is a very large yield gap between organic and conventional systems, attributable mainly to its intensive nutrient demands. The present review, considering the most relevant scientific literature worldwide, discusses the contemporary state of knowledge on crop nutrition and soil fertility management in organic potato crop production, analyzing the effects of animal manures, green manures, organic amendments, and biostimulants on organic potato tuber yield and quality. Overall, the main findings show a particular combination is needed to effectively maintain good soil fertility, satisfy the nutritional needs of the crop, and overcome the difference in potato yield between organic and conventional farming methods while meeting consumer demand. This combination entails using an animal manure or leguminous green manure with an organic soil amendment, and even better with a biofertilizer, such as a mycorrhizae-fungus-based one. It also emerged that more targeted studies are needed to select appropriate cultivars for organic potato farming systems to optimize this environmentally friendly production method. [ABSTRACT FROM AUTHOR]

Published

2024

45. Trade‐offs and Synergies between Economic and Environmental Cocoa Farm Management Decisions.

Author

Bandanaa, Joseph, Asante, Isaac. K., Egyir, Irene S., Annang, Ted Y., Blockeel, Johan, Heidenreich, Anja, Kadzere, Irene, and Schader, Christian

Subjects

SUSTAINABLE development, AGRICULTURAL exhibitions, FARM management, ORGANIC farming, AGRICULTURE

Abstract

Optimizing sustainability among smallholder farms poses challenges due to inherent trade‐offs. In the study of organic and conventional cocoa smallholder farming in Ghana, 398 farms are assessed using the Food and Agriculture Organsation of the United Nations (FAO) Sustainability Assessment of Food and Agriculture systems (SAFA) Guidelines and Sustainability Monitoring and Assessment Routine (SMART)‐Farm Tool. Organic farming exhibited synergies in environmental aspects (e.g., soil quality, energy efficiency) and between biodiversity conservation and risk management. Conventional farming showed potential vulnerabilities, including trade‐offs with long‐range investments (e.g., chemical inputs) and species diversity. Both systems demand tailored approaches for short‐term economic and environmental sustainability, aligning with community‐wide long‐term goals. To mitigate trade‐offs in conventional farming, smallholders should adopt practices like material reuse, recycling, and recovery within their operations. [ABSTRACT FROM AUTHOR]

Published

2024

46. Spent Mushroom Substrate Improves Microbial Quantities and Enzymatic Activity in Soils of Different Farming Systems.

Author

Pintarič, Maša, Štuhec, Ana, Tratnik, Eva, and Langerholc, Tomaž

Subjects

AGRICULTURE, SOIL microbiology, HISTOSOLS, ORGANIC farming, SOIL classification

Abstract

Organic fertilizers, such as spent mushroom substrate (SMS), improve soil fertility, but studies comparing their effects on different agricultural soils are limited. In this study, the effects of standard, SMS and composed fertilizers on soils from conventional–integrated, organic and biodynamic farming were investigated. Soil samples were analyzed for microorganisms and the activity of β-glucosidase (β-GLU), β-1,4-N-acetylglucosaminidase (NAG), urease (URE), arylamidase (ARN), phosphatase (PHOS), acid phosphatase (PAC), alkaline phosphatase (PAH) and arylsulphatase (ARS). Biodynamic soil showed the highest microbial counts and enzyme activities, followed by organic and conventional soils. SMS significantly increased the number of microorganisms and enzyme activities, especially in biodynamic and organic soils. Seasonal variations affected all microorganisms and most enzymes in all soils, except NAG in conventional and organic soils. Biodynamic soil showed stable activity of enzymes and microorganisms throughout the year, indicating greater stability. This study concludes that soil microorganisms and enzyme activities respond differently to fertilization depending on the soil type, with SMS demonstrating beneficial effects in all tested soils. [ABSTRACT FROM AUTHOR]

Published

2024

47. High‐Performance Self‐Filtering Organic Photodetectors with Photomultiplication Narrowing.

Author

Suthar, Gajendra, Chu, Chih‐Wei, and Chen, Fang‐Chung

Subjects

*PHOTODETECTORS, *QUANTUM efficiency, *EXCIMERS, *DETECTORS, *BANDWIDTHS

Abstract

Narrowband organic photodetectors (OPDs) conventionally necessitate high applied biases to accommodate a sufficiently thick active layer for self‐filtering functions. Herein, a concept leveraging the photomultiplication (PM) process is proposed to achieve spectral narrowing in OPDs which can operate at low external biases. This PM narrowing mechanism integrates two distinct functions through a pseudo bilayer structure comprising a photon‐filtering (PF) layer and a PM layer, respectively. The initial PF layer absorbs short‐wavelength photons and selectively permits light within a narrow bandwidth at the band edge of the PF material to enter the subsequent PM layer, thereby initiating the PM effect. The combined action of these two layers synergistically empowers the OPDs to exhibit a pronounced PM effect, resulting in a notably high external quantum efficiency of 5840% at a narrowband peak of 680 nm under a low bias of −5.0 V. Furthermore, the OPDs achieve a substantial −3 dB bandwidth of 5.2 kHz, alongside a maximum detectivity of 2.60 × 1013 Jones. These findings position the OPDs among the top‐performing self‐filtering narrowband detectors, particularly for those capable of functioning at low external biases. [ABSTRACT FROM AUTHOR]

Published

2024

48. Study of synergistic behavior during bituminous coal-cow manure co-gasification: The role of intrinsic AAEM and organic matter.

Author

Lu, Hongqiao, Ma, Meng, Wei, Juntao, Bai, Yonghui, Lv, Peng, Wang, Jiaofei, Song, Xudong, Lu, Guanghua, and Yu, Guangsuo

Subjects

COAL gasification, ALKALINE earth metals, ORGANIC compounds, CATTLE manure, MANURES, BITUMINOUS coal, ALKALI metals

Abstract

Co-thermal chemical conversion of coal and biomass is one of the important ways to realize efficient and clean utilization of coal. In this study, a typical Ningdong coal-Yangchangwan bituminous coal and cow manure were used to study the synergistic effect of intrinsic alkali, alkaline earth metals (AAEM) and organic matter on the co-gasification of coal and biomass by thermogravimetry analyzer (TG). The results showed that AAEM had obvious synergistic promotion effect on the gasification of a bituminous coal-cow manure mixture in the isothermal gasification (1000 ℃), whereas the organic matter will show the opposite effect on the process. To further investigate the effect of organic matter on the gasification process, the influence of organic matter on non-isothermal (25-1000 ℃) gasification reaction was investigated with heating rate of 10 ℃ /min, the kinetic parameters of the gasification reaction were obtained by Coats-Redfern method. The increase of biomass mass fraction in the sample facilitates the migration of alkali metals from the material to the solid phase. The possible mechanism of the synergistic effect of intrinsic AAEM/organic matter on the co-gasification process was proposed. [ABSTRACT FROM AUTHOR]

Published

2024

49. Foliar application of various biostimulants produces contrasting response on yield, essential oil and chemical properties of organically grown sage (Salvia officinalis L.).

Author

Farruggia, Davide, Di Miceli, Giuseppe, Licata, Mario, Leto, Claudio, Salamone, Francesco, and Novak, Johannes

Subjects

ESSENTIAL oils, SAGE, CHEMICAL properties, ROSMARINIC acid, AROMATIC plants, ROSEMARY, MONOTERPENES, LAMIACEAE, TERPENES

Abstract

Sage (Salvia officinalis L.) is a medicinal and aromatic plant (MAP) belonging to the Lamiaceae family. Its morphological, productive and chemical characteristics are affected by abiotic and biotic factors. The use of biostimulants seems to be one of the most interesting innovative practices due to fact they can represent a promising approach for achieving sustainable and organic agriculture. Despite a large application in horticulture, the use of biostimulants on MAPs has been poorly investigated. On this basis, a field experiment in a 2-year study was done to assess the effect of foliar treatments with different types of biostimulants (containing seaweeds, fulvic acids and protein hydrolysates) and two frequencies of application on morphological, productive, and chemical characteristics of S. officinalis grown organically in Mediterranean environment. Morphological, productive, and chemical parameters were affected by the factors. The biostimulant application generated higher plant height, chlorophyll content, relative water content, biomass yield and essential oil yield compared to control plants. In addition, more frequent application of biostimulants produced higher biomass and essential oil yield. The application of fulvic acid and protein hydrolysates every week produced the highest total fresh yields (between 3.9 and 8.7 t ha-1) and total dry yields (between 1.3 and 2.5 t ha-1). The essential oil yield almost doubled (33.9 kg ha-1) with a higher frequency of protein hydrolysates application. In this study, 44 essential oil compounds were identified, and the frequency factor significantly influenced the percentage of 38 compounds. The highest percentage of some of the most representative monoterpenes, such as 1,8-cineole, a-thujone and camphor, were observed in biostimulated plants, with average increases between 6% and 35% compared to control plants. The highest values for total phenolics, rosmarinic acid, antioxidant activity were obtained in control plants and with a lower frequency of biostimulant applications. This study emphasizes how biostimulant applications may be used to improve sage production performance and essential oil parameters when produced in agricultural organic system. At the same time, biostimulants application caused a decrease in total phenolic, antioxidant activity and rosmarinic acid values. [ABSTRACT FROM AUTHOR]

Published

2024

50. Adoption and Impact of Fungus-Resistant Grape Varieties within German Viticulture: A Comprehensive Mixed-Methods Study with Producers.

Author

Kiefer, Christoph and Szolnoki, Gergely

Abstract

The reduction of phytosanitary treatments in viticulture is widely demanded by policymakers and consumers. An important solution is the use of resistant grapes, which can cut plant protection applications by up to 80%. Although this is a significant improvement, viticulture is mainly carried out with traditional grapes. Therefore, the aim of this paper is to identify the factors that encourage the cultivation of fungus-resistant grape varieties (FRGV), as well as the challenges and opportunities in marketing. Our study used an exploratory sequential mixed-methods model design. In the first step, data were collected through 48 in-depth interviews and analyzed. Based on the qualitative results, a survey of 422 producers was conducted. The quantitative research results were segmented by company size and production type to provide a deeper understanding. The main drivers for cultivation are the ecological benefits resulting from the reduction of pesticide use, with organic producers particularly motivated by sustainability goals. Smaller producers are driven by the opportunity to introduce a new wine style, whereas larger producers are more cautious and focus on cost savings. The cultivation of resistant grape varieties is restricted by a large number of varieties, lack of experience, and unfavorable characteristics from initial generations of resistant grapes. A low level of grape variety prominence and customer awareness, as well as unattractive variety names, negatively affect producer acceptance. To facilitate higher market acceptance, it is important to offer attractive grape varieties, directly communicate them to consumers, and provide information about the sustainable effects. [ABSTRACT FROM AUTHOR]

Published

2024