Your search keyword '"GROWTH ANALYSIS"' showing total 1,735 results

1. Light interception and conversion efficiencies and biomass partitioning in sugarcane varieties with varying canopy architecture under subtropical conditions

Author

Martins, Tamires S., Magalhães Filho, José R., Cruz, Larissa P., Almeida, Rafael L., Marchiori, Paulo E.R., Silva, André L.B.O., Pires, Regina C.M., Landell, Marcos G.A., Xavier, Mauro A., Machado, Eduardo C., and Ribeiro, Rafael V.

Published

2025

2. Late summer sowing positively affects yield of lowland buckwheat in Northeastern Italy

Author

Virili, Alessandra, Petris, Raffaela, and Miceli, Fabiano

Published

2024

3. Unravelling the impact of varied organic fertilizer sources on the vegetative and reproductive traits of okra growth and development.

Author

MEHTA, Rupesh Kumar, ROY, Chetana, CHAUDHARY, Begam Kumari, MOKTAN, Aniksha, KARKI, Astha, ROY, Adhish Kumar, KOIRALA, Sujata, GURAGAIN, Hikesh, and KHATRI, Raju

Subjects

*ORGANIC fertilizers, *SYNTHETIC fertilizers, *SUSTAINABILITY, *AGRICULTURAL research, *FOOD production, *OKRA

Abstract

Nepal's pursuit of sustainable food production and rural livelihoods faces challenges amid evolving environmental pressures. Okra (Abelmoschus esculentus) cultivation, integral to Nepalese agriculture, demands innovative approaches to enhance productivity while minimizing environmental impact. This study investigates the efficacy of varied organic fertilizers on okra growth and development, aiming to identify sustainable alternatives to chemical fertilizers. The research was conducted at the G.P. Koirala College of Agriculture and Research Centre in Sundarharaicha, Morang, Nepal, from June to August 2023. A Randomized Complete Block Design (RCBD) with eight treatments replicated three times was employed, including recommended NPK dosage and various organic sources. Observations on plant height, primary branches, pods per plant, pod length, diameter, weight per pod, and yield per plant were recorded. Statistical analysis revealed significant variations among treatments. The highest yield was obtained with the recommended NPK dosage (108.84 g/plant), closely followed by biofertilizers like 100% mustard cake (103.70 g/plant) and goat manure (104.28 g/plant). The lowest yield was observed in the control group (76.99 g/plant). Notably, NPK fertilizer consistently outperformed organic alternatives in promoting okra growth and yield. However, among organic fertilizers, mustard cake and goat manure emerged as promising alternatives, showcasing comparable results to synthetic fertilizers. These findings underscore the importance of balanced nutrient management in optimizing okra productivity. Future research should explore integrated nutrient management strategies, combining organic and synthetic inputs, to enhance sustainability and resilience in Nepalese agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

4. Morphoanatomic and Physiological Characterization of Cacao (Theobroma cacao L.) Genotypes in the South of Bahia, Brazil.

Author

Alonso, Rogerio S., Gomes, Fábio P., and Silva, Delmira C.

Subjects

*CACAO, *LEAF anatomy, *LEAF area, *PHOTOSYNTHETIC rates, *SAMPLING (Process)

Abstract

Cocoa tree genotypes (Theobroma cacao L.) were studied and characterized in terms of their morphoanatomical and physiological attributes in a non-stressful environment, as these attributes are of fundamental importance to understanding the plant's relationship with the environment. Therefore, the objective of this study is to describe morphoanatomical and physiological patterns that can differentiate the seven cocoa genotypes, evaluated under the same conditions of temperature, humidity, and light. The genotypes remained in a greenhouse for 40 days, where sample collection procedures were carried out to analyze gas exchange parameters, such as net photosynthetic rate, stomatal conductance, and transpiration; growth parameters, such as dry weight, height, and leaf area; and the anatomy of leaves and stems via root, stem, and leaf dimensions and histochemistry. The cluster divided the genotypes into six groups. The Ipiranga-01, CCN-10, and PH-16 genotypes were grouped since they presented the highest means of anatomical variables and photosynthetic parameters. The PS-1319 genotype was segregated from the others for having the lowest physiological parameter values. CCN-51 and Cepec-2002 were grouped due to their similarity only in the internal concentration of CO2, while Ipiranga-01, CCN-10, SJ-02, and PH-16 were grouped due to having higher physiological parameters and morphoanatomical variables. The results indicated an intergenotypic variation in physiological and morphoanatomical variables, serving as a basis for the six genotype groups. [ABSTRACT FROM AUTHOR]

Published

2024

5. Sink Strength Dynamics Based on Potential Growth and Carbohydrate Accumulation in Strawberry Fruit.

Author

Hiromi Nakai, Daisuke Yasutake, Kota Hidaka, Yuta Miyoshi, Toshihiko Eguchi, Gaku Yokoyama, and Tomoyoshi Hirota

Subjects

*SUGAR content of fruit, *GREENHOUSE plants, *MICROIRRIGATION, *FRUIT quality, *FRUIT harvesting, *STRAWBERRIES

Abstract

Fruit size and sugar content are key determinants of fruit quality, influenced by environmental factors and agronomic practices and sink strength provided by the genetic potential. Strawberry (Fragaria ×ananassa) produces fruits arranged in inflorescences, whose growth is affected by carbon competition between them. The competitive ability is termed as sink strength, which can be quantified as the potential growth rate under sufficient resource supply and/or no carbon competition among sinks, referred to as non-limiting conditions. Most previous studies did not observe potential growth, thereby failing to adequately evaluate sink strength and to assess the influence of environmental factors and agronomic practices on fruit growth. This study aimed to investigate the potential growth of strawberry fruits and analyze its sink strength dynamics. Non-limiting conditions were established by removing flowers to one fruit per inflorescence in a greenhouse experiment with plants grown in soil and given water and nutrients through drip irrigation. Fruits were harvested every 5 days from 5 to 55 days after anthesis (DAA), measuring the size, weight, and concentrations of major soluble carbohydrates in strawberry (sucrose, glucose, and fructose) and starch. Sink strength was represented by absolute growth rate based on fruit weight, and its components, sink size and sink activity, were represented by weight and relative growth rate, respectively. Fruit volume and weight showed a gradual linear increase at 5 DAA and then rapidly increased, following a single sigmoid curve between 30 and 55 DAA. Fruits primarily accumulated glucose and fructose during early growth, shifting to sucrose after 35 DAA. Starch concentration peaked at 5 DAA and then exponentially decreased. Sink strength exhibited a single peak between 40 DAA and 45 DAA. Sink strength gradually increased with sink size until 30 DAA, whereas sink activity significantly decreased until 30 DAA. Thereafter, sink strength and sink activity exhibited a peak, whereas sink size continued to increase. These results suggest that the major determinant of sink strength was sink size during early fruit growth, shifting to sink activity during late growth. [ABSTRACT FROM AUTHOR]

Published

2024

6. Adaptation of indoor ornamental plants to various lighting levels in growth chambers simulating workplace environments

Author

Soma Sugano, Masahisa Ishii, and Shin-ichi Tanabe

Subjects

Biophilic design, Daily light integral, Growth analysis, Indoor greenery, Light compensation point, Medicine, Science

Abstract

Abstract Despite the growing interest in indoor greenery and its positive effects on occupants’ well-being, there is limited knowledge on the optimal light levels for indoor plants that ensure energy efficiency and sustainable growth. This study explored the survival of ornamental plants under low-light conditions typical of indoor workplaces without daylight and investigated the impact of increased light intensity or extended day length on their growth. Three species of foliage plants (Epipremnum aureum, Pachira aquatica, and Rhaphidophora tetrasperma) were cultivated in growth chambers with three different lighting schemes. The results showed that plants sustained growth with 6.8 μmol m−2 s−1 white LED light for 9 h/day, suggesting that extra lighting might not be necessary for shade-tolerant species in offices. In this environment, plants maintained efficient photosynthesis under low illumination by increasing their specific leaf area. Elevating the light to 20.1 μmol m−2 s−1 and extending the day length to 18 h/day enhanced the plants’ relative growth rate. Climbing plants allocated more biomass to stems, resulting in a lower leaf weight ratio and noticeably altering their appearance. This study demonstrates that customized lighting strategies effectively support indoor greening goals, like adjusting intensity for energy savings or adding light for greening large spaces.

Published

2024

7. Clustering-Based Growth Analysis of 2D Transition Metal Thin Films on Graphene Substrates via Molecular Beam Epitaxy.

Author

Khatri, A. A., Yawalkar, P. M., William, P., Tidake, V. M., Patare, P. M., Khatkale, P. B., and Ingle, S. S.

Subjects

MOLECULAR beam epitaxy, INDEPENDENT component analysis, SUBSTRATES (Materials science), TRANSITION metals, THIN films

Abstract

Metal dichalcogenides are a kind of chemical substance that consists of a metal atom paired with chalcogen elements such as selenium and sulphur. These materials have distinctive electrical and optical characteristics, making them fascinating for a variety of applications, including electronics and optoelectronics. Growth examination of metal dichalcogenide thin films entails analyzing their controlled deposition and crystallization. Understanding growth processes, substrate interactions and controlling parameters like as temperature and precursor concentration are critical for producing high-quality films with the appropriate characteristics, establishing the way for developments in nanotechnology and device manufacturing. Throughout this research, we employed the Machine learning (ML) enabled Reflection High-Energy Electron Diffraction (RHEED) analytical approach to examine the development of two-dimensional (2D thin layers of dichalcogenides (ReSe2) made of transition metals on graphene substrates using Molecular Beam Epitaxy (MBE). Independent Component Analysis (ICA) and the Fuzzy C-Means approach were implemented to determine different patterns and represent the pattern growths. To decrease the original dataset's dimensionality, we employed 20 Independent Components (ICs) and each RHEED image was distributed to the closest centroid, which resulted in the dataset being clustered using Fuzzy C-Means. [ABSTRACT FROM AUTHOR]

Published

2024

8. Allelopathic potentiality of Trianthema portulacastrum L. shoot extract and mulch on germination and growth of two summer weeds.

Author

Fahmy, Gamal M., Moussa, Sanna A. I., Abd EL-Rehem, Rasha A. S., and Farrag, Hussein F.

Subjects

NOXIOUS weeds, HIGH performance liquid chromatography, PLANTING, PHENOLS, HYDROQUINONE, PHYTOCHEMICALS, WEEDS

Abstract

Trianthema portulacastrum L. is an alien naturalized noxious summer weed belonging to Aizoaceae. Our field observations revealed that it was the dominant weed in the fields planted with maize and other summer crops, and on roadsides of wastelands and farmlands. This study was conducted to evaluate the potential allelopathic effects of the aqueous shoot extracts and mulching with different rates of air-dried shoots of T. portulacastrum collected from maize fields on two associating weeds namely, Corchorus olitorius and Euphorbia heterophylla. Seed germination and seedling growth of the test weeds decreased with increasing concentrations of the aqueous extract. The seeds bioassay experiments confirmed the autotoxicity of T. portulacastrum. We have found that the allelopathic effects of the target species on the two weeds, and the autotoxic effects on itself were mainly attributed to the presence of allelochemicals and not to the osmotic potential of the aqueous extracts. Mulching had inhibitory effects on the percentage of dry matter allocations and the growth parameters of the test weed species. The relative growth rate, the net assimilation rate, and the leaf area ratio of the non-mulched weeds were higher than those of mulched ones. The phytochemical screening of the dry shoots of T. portulacastrum indicated the presence of phenolic compounds, flavonoids, tannins, and alkaloids. The high concentration of alkaloids in the shoot deserves further research. The high-performance liquid chromatography confirmed the presence of 14 phenolic substances, which included 12 phenolic compounds, and 2 flavonoids. Evaluation of seed bioassay and mulching experiments revealed that the aqueous extract concentrations of 4 and 6 % of T. portulacastrum inhibited the germination of E. heterophylla, while the mulched plants showed tolerance at the juvenile-flowering stage. We conclude that tolerance to allelopathic stress varied among the tested weed species and the growth stages of the same species. The suitability of using either aqueous shoot extract or mulch of T. portulacastrum as a potential bioherbicide deserves further monitoring under field conditions. [ABSTRACT FROM AUTHOR]

Published

2024

9. Adaptation of indoor ornamental plants to various lighting levels in growth chambers simulating workplace environments.

Author

Sugano, Soma, Ishii, Masahisa, and Tanabe, Shin-ichi

Subjects

ORNAMENTAL plants, CLEAN energy, FOLIAGE plants, HOUSE plants, CLIMBING plants, DAYLIGHT

Abstract

Despite the growing interest in indoor greenery and its positive effects on occupants' well-being, there is limited knowledge on the optimal light levels for indoor plants that ensure energy efficiency and sustainable growth. This study explored the survival of ornamental plants under low-light conditions typical of indoor workplaces without daylight and investigated the impact of increased light intensity or extended day length on their growth. Three species of foliage plants (Epipremnum aureum, Pachira aquatica, and Rhaphidophora tetrasperma) were cultivated in growth chambers with three different lighting schemes. The results showed that plants sustained growth with 6.8 μmol m−2 s−1 white LED light for 9 h/day, suggesting that extra lighting might not be necessary for shade-tolerant species in offices. In this environment, plants maintained efficient photosynthesis under low illumination by increasing their specific leaf area. Elevating the light to 20.1 μmol m−2 s−1 and extending the day length to 18 h/day enhanced the plants' relative growth rate. Climbing plants allocated more biomass to stems, resulting in a lower leaf weight ratio and noticeably altering their appearance. This study demonstrates that customized lighting strategies effectively support indoor greening goals, like adjusting intensity for energy savings or adding light for greening large spaces. [ABSTRACT FROM AUTHOR]

Published

2024

10. Fostering prosperity: Economic Growth and Government Sectorial Expenditure in Ethiopia

Author

Moges Asmare Sisay, Mohammed Yimam Ali, and Berhanu Ferede

Subjects

ARDL, co-integration, growth analysis, Ethiopia, government expenditure, economic development, Finance, HG1-9999, Economic theory. Demography, HB1-3840

Abstract

This study delves into the complex relationship between government sectorial expenditure and economic growth in Ethiopia from 1980 to 2021. Utilizing a modified endogenous growth model and the ARDL bound test model approach to co-integration, the research uncovers a long-run co-integrating relationship among the variables. The model encompasses nine key variables: Real GDP, Health, Agriculture, Education, Defense, Road, Water expenditures, Consumer Price Index, Foreign Aid, and Government Tax Revenue. In long run, the study reveals significant positive impacts of government health, agriculture, education, road, water sector expenditures, consumer price index, and government tax revenue on economic growth. Conversely, expenditures on the defense sector and foreign aid exhibit negative and significant impacts on long-run economic growth. The comprehensive short-run analysis offers additional insights, with agriculture, defense, and road sector expenditures emerging as positive influencers of economic growth, while education sector expenditure, consumer price index, and foreign aid showcase significantly negative effects. Intriguingly, water sector expenditure emerges as a non-significant contributor to short-term economic growth. Moreover, the study employs the error correction mechanism (ECM) to underscore the dynamic equilibrium between short-run and long-run dynamics, revealing a noteworthy speed of adjustment of 84.75%. This underscores the pivotal role of the ECM in rectifying short-term deviations from long-term equilibria. To sum up, the study advocates for a paradigm shift towards increased expenditure on pro-poor government sectors, alongside the implementation of a well-defined expenditure strategy and efficient budgetary resource management. Such measures, the study posits, hold the potential to serve as catalysts for propelling sustained and inclusive economic growth in Ethiopia.

Published

2024

11. Biochar alleviates single and combined effects of salinity and drought stress in faba bean plants

Author

I. RAJHI, R. NEFISSI OUERTANI, N. FERCHICHI, B. KHIARI, L. EL-BASSI, and H. MHADHBI

Subjects

biochar, drought, faba bean, gas exchange, growth analysis, salinity, Botany, QK1-989

Abstract

This study aimed to evaluate the impact of four biochar concentrations (0, 2, 5, and 8%) on single and interactive effects of salinity and drought stresses on the morphological, physiological, and photosynthetic parameters of faba bean plants. PCA analysis showed that plants displayed different behavior under non-stressed and stressed conditions. The most discriminating quantitative characters were related to plant biomass production and photosynthesis, especially shoot dry mass, root dry mass, plant fresh mass, internal CO2 concentration, net CO2 assimilation rate, and relative water content. The obtained results confirm the biochar's important role in promoting plant growth under normal or stressed conditions. Thus, a better understanding of the impact of biochar on plant growth under drought and salinity stresses will be beneficial for sustainable agriculture.

Published

2024

12. X-ray computed tomography (CT) scanning for evaluation of groundnut (Arachis hypogaea L.) seed development

Author

Bopaliya, Dhara P., Chudasama, Kiran S., and Thaker, Vrinda

Published

2024

13. Growth Analysis of Situ Bagendit Variety in Rainfed Lowland Rice Applied Mycorrhizae with Nitrogen and Phosphorus in Entisol

Author

Aziez, Achmad Fatchul, Soelistijono, Priyadi, Sapto, and Haryuni

Published

2024

14. A review on rice plant phenotyping traits estimation for disease and growth management using modern ML techniques.

Author

Patel, Bharati and Sharaff, Aakanksha

Abstract

Over the past decades, rice crops have been crucially acknowledged as one of the most powerful energy streams for the production of resources. Plant phenotyping trait estimation includes the external feature evaluation of the plants for production growth. Phenotyping using machine learning techniques outperforms the other imaging techniques for the analysis of traits including leaf, seed, branch, panicle, flower root, shoot, etc. Rice plants, categorized by multiple traits such as growth analysis and disease management, are considered a contributing factor to the agricultural, economic, and communal losses in the upcoming development of the agricultural field. The last 15 years' diagnosis of plant disease in relation to image processing techniques has remained an area of interest among researchers. Several disease detections, identification, and quantification methods have been developed and applied to a wide variety of crops. This paper reviews the related research papers from the period between 2007 and 2023, with a focus on the development of the state of the art. The related studies are compared based on image segmentation, feature extraction, feature selection, and classification. This paper also outlines the current achievements, limitations, and suggestions for future research associated with the diagnosis of rice plant growth analysis and disease identification using machine learning techniques. [ABSTRACT FROM AUTHOR]

Published

2024

15. CRESCIMENTO E PRODUÇÃO DE BIOMASSA DO ALECRIM EM AMBIENTE URBANO.

Author

Guilhon de Castro, Henrique, Meire Paixão, Gabriela, Fernandes Morais, Fernanda Gabriele, de Resende Terra Cotta, Ana Paula, Alecrim Oashi, Beatriz Yuki, Mawugnon Deguenon, Elfy, Balestra Ribeiro, Lourenço Lacerda, de Abreu de Souza, Lívia, and da Silva Braga, Karoline Aparecida

Subjects

BIOMASS production, ORGANIC fertilizers, ROSEMARY, CITIES & towns, COST control

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco 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

16. Biochar alleviates single and combined effects of salinity and drought stress in faba bean plants.

Author

RAJHI, I., OUERTANI, R. NEFISSI, FERCHICHI, N., KHIARI, B., EL-BASSI, L., and MHADHBI, H.

Subjects

FAVA bean, BIOCHAR, PLANT biomass, BIOMASS production, SALINITY, DROUGHT management, DROUGHTS

Abstract

This study aimed to evaluate the impact of four biochar concentrations (0, 2, 5, and 8%) on single and interactive effects of salinity and drought stresses on the morphological, physiological, and photosynthetic parameters of faba bean plants. PCA analysis showed that plants displayed different behavior under non-stressed and stressed conditions. The most discriminating quantitative characters were related to plant biomass production and photosynthesis, especially shoot dry mass, root dry mass, plant fresh mass, internal CO2 concentration, net CO2 assimilation rate, and relative water content. The obtained results confirm the biochar's important role in promoting plant growth under normal or stressed conditions. Thus, a better understanding of the impact of biochar on plant growth under drought and salinity stresses will be beneficial for sustainable agriculture. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluation of Physiological Growth Analysis of some Quinoa (Chenopodium quinoa Willd.) Varieties under Different Moisture Levels in Spring and Summer Planting Dates at South Khorasan Region

Author

F Golestani Far, S Mahmoodi, H. R Fallahi, and A Shahidi

Subjects

adjusted deficit irrigation, crop growth rate, growth analysis, net assimilation rate, Plant culture, SB1-1110, Agriculture (General), S1-972

Abstract

IntroductionDeficit irrigation offers a solution for optimizing crop production under water stress conditions, albeit with an initial reduction in yield per unit area. Employing deficit irrigation aids in farm management in scenarios where land availability isn’t constrained, enabling the determination of optimal cultivation patterns while conserving water consumption. However, deficit irrigation may influence plant growth and development by inducing drought stress. Due to several capabilities, quinoa shows resistance to solar radiation, temperature, water availability, and atmospheric CO2 concentration, which makes it possible to cultivate it in different agricultural areas. Quinoa also has a great capacity for cultivation in dry and low-water soils. Although growth analysis sometimes provides valuable clues, it does not provide any physicochemical information related to the environmental reactions of plants; in other words, the main benefit of many quantities involved in growth analysis is to provide an accurate estimate of the ability and efficiency of the plant in the community at certain time intervals. In general, growth analysis evaluates the system based on the results of physiological manifestations. The purpose of this research was to evaluate the physiological growth analyses of three quinoa cultivars under different moisture levels in summer and spring planting dates in the South Khorasan region.Materials and MethodsTo evaluate the physiological traits of three quinoa cultivars under deficit irrigation conditions, four separate experiments were conducted using a factorial layout based on a randomized complete block design. These experiments included three replications and were carried out in two regions (Birjand and Sarbisheh) during two planting dates (March and July) in 2018-2019. The experimental factors consisted of five moisture levels (ranging from 25% to 125% of crop water requirement) and three quinoa cultivars (Titicaca, Giza1, and Redcarina). To compare the cultivars and assess the impact of humidity levels, several physiological indices—such as leaf area index (LAI), crop growth rate (CGR), relative growth rate (RGR), and net assimilation rate (NAR)—were studied. Regression curves were fitted to the data from all four experiments separately, and separate analyses of variance were also performed for each sampling time.Results and DiscussionThe trend of changes in the leaf area index (LAI) showed that the time needed to reach the maximum LAI was observed between 106 to 107 days after emergence in March and between 73 to 76 days after emergence in July in Birjand, respectively. In Sarbisheh, the maximum LAI was observed on day 104 after emergence in March and between 65 to 72 days after emergence in July. In March, in both studied areas, Redcarina had the highest LAI values (4.5 in Birjand and 6.7 in Sarbisheh), along with the maximum crop growth rate (CGR) of 17.93 g m-2 day-1 in Birjand and 20.63 g m-2 day-1 in Sarbisheh. Conversely, in July, Giza1 exhibited the highest LAI (6.4 in Birjand and 6 in Sarbisheh), along with the maximum CGR of 19.32 g m-2 day-1 in Birjand and 18.11 g m-2 day-1 in Sarbisheh. Additionally, the highest relative growth rate (RGR) and net assimilation rate (NAR) at the beginning of the growing season in March were observed for Redcarina, while in July, Giza1 demonstrated the highest RGR and NAR in both studied areas. Considering the effect of humidity levels, the highest levels of LAI, CGR, RGR, and NAR indices were observed at the 125% water requirement level. Specifically, the maximum LAI values in March (in Sarbisheh and Birjand) and August (in Sarbisheh and Birjand) were 8.2, 5.3, 6.5, and 7.2, respectively. The maximum CGR values were 28.78, 23.56, 22.96, and 26.18 g m-2 day-1, respectively. Furthermore, the highest RGR at the beginning of the growing season ranged from 0.189 to 0.214 g g-1 day-1, and the highest NAR at the beginning of the growing season ranged from 6.16 to 10.22 g m-2 day-1. Conversely, the lowest values of these indices were observed at the 25% water requirement level.ConclusionOverall, Redcarina, cultivated in March, and Giza1, cultivated in July, exhibited the most favorable growth analysis indices and grain yield compared to other cultivars. Additionally, deficit irrigation resulted in a decrease in all of these indices and grain yield.

Published

2024

18. Green synthesis, characterization, and application of iron and molybdenum nanoparticles and their composites for enhancing the growth of Solanum lycopersicum

Author

Habib Maria, Fatima Hina, Anwar Tauseef, Qureshi Huma, Aisida Samson O., Ahmad Ishaq, Ali Iftikhar, Al-Mohaimeed Amal M., Elshikh Mohamed S., Razak Sarah Abdul, and Kamal Asif

Subjects

agri-nanotechnology, iron and molybdenum nanoparticles, green synthesis, micronutrients, plant growth parameters, growth analysis, Chemistry, QD1-999

Abstract

Nanomaterials have become integral in various aspects of agricultural practices, including the development of nano-fertilizers for optimized crop nutrition. This study explores the application of green-synthesized iron (Fe) and molybdenum (Mo) nanoparticles, as well as their composites, using a guava leaf extract (GLE). The focus is on assessing their impact on nitrogen fixation and growth in tomato plants (Solanum lycopersicum). The nanoparticles were characterized through Fourier Transform Infrared Spectroscopy, Ultraviolet Diffused Reflectance Spectroscopy, Raman Spectroscopy, and X-ray diffraction analysis. The experiment involved two application methods (soil and direct plant spraying) with varying nanoparticle concentrations. Results indicate that the 1% composite nanoparticles applied to the soil and 3% Mo directly on plants yield the most favorable growth and nitrogen uptake in S. lycopersicum. Notably, the 1% composite treatment demonstrated significant enhancement in shoot length, number of branches, and shoot diameter at all three growth stages. Conversely, the 3% Mo treatment when applied directly to plants exhibited optimal results showing substantial shoot length, number of branches, and shoot diameter. Post-experimental soil nutrient analysis further revealed the nuanced effects of nanoparticle applications with 1% composite treatments enhancing nutrient availability compared to control and other concentrations. This research contributes to the evolving field of agri-nanotechnology emphasizing the importance of nanoparticle concentration and application method in influencing plant development and nutrient uptake, paving the way for sustainable agricultural practices.

Published

2024

19. Influence of Bradyrhizobium japonicum on the growth parameters and formation of the assimilation apparatus in E-gene isogenic lines of soybean

Author

D. V. Hlushach and O. O. Avksentieva

Subjects

glycine max, rhizobia, e-loci, photoperiod sensitivity, growth analysis, chlorophyll a and b, inoculation, leaf area, Science

Abstract

The study investigated the impact of the interaction between soybean and rhizobia on the assimilation apparatus functioning and biomass accumulation in different soybean lines with varying photoperiod sensitivity. Nearly isogenic lines (NILs) of soybean were used, with genes E1, E2, and E3 in different allelic states: Clark (e1E2E3), L80-5879 (E1e2e3), L63-3117 (e1e2E3), and L71-920 (e1e2e3). The experimental group for each line was treated with Bradyrhizobium japonicum 634b. Plants were grown under natural long-day conditions (16 hours). Growth indicators of the studied lines, such as relative growth rate (RGR), net assimilation rate (NAR), leaf area ratio (LAR), and specific leaf area (SLA), were analyzed, as well as the content of chlorophylls A and B in the V3 and V5 developmental stages. The results demonstrate that the influence of rhizobia on the functioning of the assimilation apparatus and biomass accumulation depends on the soybean line genotype. In the study, RGR, which characterizes the biomass accumulation rate, has similar trends to those observed with NAR, characterizing the assimilation apparatus's functioning. However, each line showed its own tendencies. For instance, in the short-day variety Clark, under bacterial influence, the value of RGR and NAR decreased. Additionally, LAR and SLA values indicated a reduction in the total photosynthetic surface area and leaf dry matter. Bacterial inoculation did not significantly affect the content of photosynthetic pigments in Clark leaves. Another short-day line, L80-5879, showed no significant impact of bacterial inoculation on biomass accumulation. However, soybean interaction with Bradyrhizobium japonicum 634b led to a decrease in leaf surface area and dry matter content. Probably, bacterial inoculation supported assimilation processes by increasing auxiliary chlorophyll b in photosystem I. A general trend of significant RGR reduction in neutral-day soybean lines, L63-3117 and L71-920, was identified under bacterial influence. The interaction with rhizobia differently affected LAR and SLA values, indicating distinct adaptive mechanisms to the interactions. In conditions of almost zero plant biomass accumulation, Bradyrhizobium japonicum 634b caused a decrease in the total photosynthetic surface area and chlorophyll a and b content in the L63-3117 line. In L71-920, bacterial inoculation had no effect on the total photosynthetic surface area, while leaf dry matter and photosynthetic pigment content decreased. The obtained results demonstrate that interaction with rhizobia can influence the functioning of the assimilation apparatus in soybeans with varying photoperiod sensitivity that is determined by genotype. It is important in improving soybean productivity and its application in agricultural practices.

Published

2024

20. GROWTH ANALYSIS, YIELD AND YIELD COMPONENTS OF SWEET CORN (Zea Mays L.) AS INFLUENCED BY INTER-ROW SPACING

Author

A. S. A. Dizayee

Subjects

sweet corn, inter-row spacing, intra-row spacing, growth analysis, some yield components, Agriculture

Abstract

This study aimed to investigate the effects of different inter and intra-row spacing on the growth analysis and some yield components of sweet corn (Zea mays L.). The experiment was conducted under field conditions at Qushtapa zones of northern Iraq in the main cropping season of 2020-21. Three different inter and intra-row spacing treatments 45, 60 and 75 cm and 10 and 15 cm were applied in a randomized complete block design (RCBD) with three replications, making a total of six plots, each plot on the field was measured 2m width by 3m length 6 m2. The study assessed various growth parameters and yield attributes. The results indicated that inter-row spacing significantly influenced ear length (cm) number of kernels per ear, net assimilation rate (NAR) and light transmission ratio (LTR) which significantly possessed higher mean value at 75cm inter-row spacing. In contrast, interaction treatments of inter-row spacing ×intra-row spacing recorder highest mean values of ear length (cm), number of kernels per ear and light transmission ratio (LTR) at interaction treatments of (inter 75cm × intra 15cm) respectively. As for net assimilation rate (NAR) this trait postulate higher mean at treatment interaction of (inter 75cm × intra 10cm). These findings provide valuable insights into optimizing inter and intra-row spacing for hybrid maize cultivation to enhance productivity.

Published

2023

21. Ecophysiological adaptability of rice sown on residual ridges of previous soybean cultivation

Author

Nathalia Dalla Corte Bernardi, Thaís Stradioto Melo, José Maria Barbat Parfitt, Sidnei Deuner, Ítalo Borges Ribeiro, and Germani Concenço

Subjects

growth analysis, irrigation system, Oryza sativa, production physiology., Agriculture (General), S1-972

Abstract

The furrow-ridge system was designed to allow the cultivation of dryland crop species in lowlands, enabling rotation with rice. After harvesting the dryland species, farmers usually return with rice in the following cropping season, with costs associated with dismantling ridges before sowing rice. The possibility of sowing rice directly on residual ridges should be investigated to avoid these costs. The objective was to verify the ecophysiological adaptability of rice sown on residual ridges from the previous dryland crop in lowlands, and to identify possible factors impacting the physiological performance of rice plants in this new production system. The experiment was installed in the field in a randomized block design with 5 treatments and 12 replications. The treatments considered the plant’s position in the field and in the irrigation furrow. The parameters of the growth analysis were calculated using the classical method. There was no significant damage to rice plants in any part of the field, and there was no difference between plants at the top or bottom of the furrow. Therefore, there is no need to dismantle residual ridges from previous dryland crops before planting rice in the succeeding cropping season in the lowlands of Rio Grande do Sul State, Brazil.

Published

2024

22. Solitary foundation or colony fission in ants: an intraspecific study shows that worker presence and number increase colony foundation success.

Author

Finand, Basile, Loeuille, Nicolas, Bocquet, Céline, Fédérici, Pierre, and Monnin, Thibaud

Subjects

*ANTS, *ANT colonies, *QUEENS (Insects)

Abstract

Dispersal and establishment strategies are highly variable. Each strategy is associated with specific costs and benefits, and understanding which factors favour or disfavour a strategy is a key issue in ecology and evolution. Ants exhibit several strategies of establishment, i.e. of colony foundation. Some species rely on winged queens that found new colonies alone when others found with accompanying workers (colony fission). The benefits conferred by these workers have been little studied and quantified, because comparing the costs and benefits of solitary foundation vs. colony fission is difficult when comparing different species. We investigated this using the ant Myrmecina graminicola, one of the few species that use both strategies. Young mated queens were allowed to found new colonies in the laboratory, with either zero (solitarily), two or four workers (colony fission). The presence of workers increased both survival and growth of the foundations over the first year, with more workers yielding higher growth. Few workers (as little as two workers) were sufficient to provide benefits, suggesting that in M. graminicola the strategy of colony fission may not dramatically decrease the number of new colonies produced compared to solitary foundation. Because queens performing solitary foundation or colony fission differ in dispersal (by flight vs. on foot), our results support the hypothesis that these two strategies of foundation coexist along a competition–colonization trade-off, where solitary foundation offers a colonization advantage, while colony fission has a competitive advantage. [ABSTRACT FROM AUTHOR]

Published

2024

23. Morphophysiological Characterisation of Guayule (Parthenium argentatum A. Gray) in Response to Increasing NaCl Concentrations: Phytomanagement and Phytodesalinisation in Arid and Semiarid Areas.

Author

Di Baccio, Daniela, Lorenzi, Aurora, Scartazza, Andrea, Rosellini, Irene, Franchi, Elisabetta, and Barbafieri, Meri

Subjects

EFFECT of salt on plants, SALT, SOIL salinity, ARID regions, IRRIGATION water, SALINITY

Abstract

Water and soil salinity continuously rises due to climate change and irrigation with reused waters. Guayule (Parthenium argentatum A. Gray) is a desert perennial shrub native to northern Mexico and the southwestern United States; it is known worldwide for rubber production and is suitable for cultivation in arid and semiarid regions, such as the Mediterranean. In the present study, we investigated the effects of high and increasing concentrations of sodium chloride (NaCl) on the growth and the morphophysiological and biochemical characteristics of guayule to evaluate its tolerance to salt stress and suitability in phytomanagement and, eventually, the phytodesalinisation of salt-affected areas. Guayule originates from desert areas, but has not been found in salt-affected soils; thus, here, we tested the potential tolerance to salinity of this species, identifying the toxicity threshold and its possible sodium (Na) accumulation capacity. In a hydroponic floating root system, guayule seedlings were subjected to salinity-tolerance tests using increasing NaCl concentrations (from 2.5 to 40 g L−1 and from 43 to 684 mM). The first impairments in leaf morphophysiological traits appeared after adding 15 g L−1 (257 mM) NaCl, but the plants survived up to the hypersaline conditions of 35–40 g L−1 NaCl (about 600 mM). The distribution of major cell cations modulated the high Na content in the leaves, stems and roots; Na bioconcentration and translocation factors were close to one and greater than one, respectively. This is the first study on the morphophysiological and (bio)chemical response of guayule to different high and increasing levels of NaCl, showing the parameters and indices useful for identifying its salt tolerance threshold, adaptative mechanisms and reclamation potential in high-saline environments. [ABSTRACT FROM AUTHOR]

Published

2024

24. Geometrical analysis of naturally grown timber for the design of load-bearing structures.

Author

Gata, Kevin Moreno, Spahn, Florian, Klinkel, Sven, and Trautz, Martin

Subjects

*SUSTAINABILITY, *COMPUTED tomography, *STRUCTURAL design, *TREE branches, *STRUCTURAL engineering

Abstract

Combining tradition and innovation, timber plays essential roles in building structures for architecture and engineering. Tree branching geometries and timber in its natural state often serve as sources of inspiration. However, the mechanical properties of naturally grown timber, inherently inconsistent and geometrically varied, remain insufficiently studied, particularly for construction and simulations. This knowledge gap perpetuates the prevalent use of straight, uniformly harvested timber while neglecting curved and bifurcated elements with smaller cross-sections. This research investigates the potential of naturally grown timber in structural design, emphasizing the importance of understanding the natural characteristics and growth patterns of trees to optimize timber use. The developed methodology leverages noninvasive technologies, such as computerized tomography (CT), to precisely capture the geometrical and material properties of wood. These data sources are then integrated to visualize cross-sectional geometries and material properties, forming the basis for our analytical approach. Utilizing generalized scaled boundary isogeometric analysis, the methodology enhances the accuracy and efficiency of simulations, aligning structural design with natural growth principles. This approach not only fosters sustainable resource practices by promoting the use of major tree parts but also transforms discarded materials into valuable resources. The paper concludes with a demonstration of this methodology applied in a practical construction scenario. [ABSTRACT FROM AUTHOR]

Published

2024

25. Calibration and evaluation of CSM-CROPGRO-soybean for soybean crop in the southwestern cerrado of Pia.

Author

Irene Filho, João, de Andrade Júnior, Aderson S., Cuadra, Santiago V., da Silva, Everaldo M., and de M. J. Vieira, Paulo F.

Abstract

Copyright of Revista Caatinga is the property of Revista Caatinga 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

26. Influence of Bradyrhizobium japonicum on the growth parameters and formation of the assimilation apparatus in E-gene isogenic lines of soybean.

Author

Hlushach, D. V. and Avksentieva, O. O.

Subjects

BRADYRHIZOBIUM japonicum, SOYBEAN, PHOTOSYNTHETIC pigments

Abstract

The study investigated the impact of the interaction between soybean and rhizobia on the assimilation apparatus functioning and biomass accumulation in different soybean lines with varying photoperiod sensitivity. Nearly isogenic lines (NILs) of soybean were used, with genes E1, E2, and E3 in different allelic states: Clark (e1E2E3), L80-5879 (E1e2e3), L63-3117 (e1e2E3), and L71-920 (e1e2e3). The experimental group for each line was treated with Bradyrhizobium japonicum 634b. Plants were grown under natural long-day conditions (16 hours). Growth indicators of the studied lines, such as relative growth rate (RGR), net assimilation rate (NAR), leaf area ratio (LAR), and specific leaf area (SLA), were analyzed, as well as the content of chlorophylls A and B in the V3 and V5 developmental stages. The results demonstrate that the influence of rhizobia on the functioning of the assimilation apparatus and biomass accumulation depends on the soybean line genotype. In the study, RGR, which characterizes the biomass accumulation rate, has similar trends to those observed with NAR, characterizing the assimilation apparatus's functioning. However, each line showed its own tendencies. For instance, in the short-day variety Clark, under bacterial influence, the value of RGR and NAR decreased. Additionally, LAR and SLA values indicated a reduction in the total photosynthetic surface area and leaf dry matter. Bacterial inoculation did not significantly affect the content of photosynthetic pigments in Clark leaves. Another short-day line, L80-5879, showed no significant impact of bacterial inoculation on biomass accumulation. However, soybean interaction with Bradyrhizobium japonicum 634b led to a decrease in leaf surface area and dry matter content. Probably, bacterial inoculation supported assimilation processes by increasing auxiliary chlorophyll b in photosystem I. A general trend of significant RGR reduction in neutral-day soybean lines, L63-3117 and L71-920, was identified under bacterial influence. The interaction with rhizobia differently affected LAR and SLA values, indicating distinct adaptive mechanisms to the interactions. In conditions of almost zero plant biomass accumulation, Bradyrhizobium japonicum 634b caused a decrease in the total photosynthetic surface area and chlorophyll a and b content in the L63-3117 line. In L71-920, bacterial inoculation had no effect on the total photosynthetic surface area, while leaf dry matter and photosynthetic pigment content decreased. The obtained results demonstrate that interaction with rhizobia can influence the functioning of the assimilation apparatus in soybeans with varying photoperiod sensitivity that is determined by genotype. It is important in improving soybean productivity and its application in agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

27. Fostering prosperity: Economic Growth and Government Sectorial Expenditure in Ethiopia.

Author

Sisay, Moges Asmare, Ali, Mohammed Yimam, and Ferede, Berhanu

Subjects

CONSUMER price indexes, PUBLIC spending, INTERNATIONAL economic assistance, ECONOMIC expansion, GOVERNMENT revenue, ENDOGENOUS growth (Economics)

Abstract

This study delves into the complex relationship between government sectorial expenditure and economic growth in Ethiopia from 1980 to 2021. Utilizing a modified endogenous growth model and the ARDL bound test model approach to co-integration, the research uncovers a long-run co-integrating relationship among the variables. The model encompasses nine key variables: Real GDP, Health, Agriculture, Education, Defense, Road, Water expenditures, Consumer Price Index, Foreign Aid, and Government Tax Revenue. In long run, the study reveals significant positive impacts of government health, agriculture, education, road, water sector expenditures, consumer price index, and government tax revenue on economic growth. Conversely, expenditures on the defense sector and foreign aid exhibit negative and significant impacts on long-run economic growth. The comprehensive short-run analysis offers additional insights, with agriculture, defense, and road sector expenditures emerging as positive influencers of economic growth, while education sector expenditure, consumer price index, and foreign aid showcase significantly negative effects. Intriguingly, water sector expenditure emerges as a non-significant contributor to short-term economic growth. Moreover, the study employs the error correction mechanism (ECM) to underscore the dynamic equilibrium between short-run and long-run dynamics, revealing a noteworthy speed of adjustment of 84.75%. This underscores the pivotal role of the ECM in rectifying short-term deviations from long-term equilibria. To sum up, the study advocates for a paradigm shift towards increased expenditure on pro-poor government sectors, alongside the implementation of a well-defined expenditure strategy and efficient budgetary resource management. Such measures, the study posits, hold the potential to serve as catalysts for propelling sustained and inclusive economic growth in Ethiopia. Impact statement: The study examines the intricate relationship between government sectoral expenditure and economic growth in Ethiopia from 1980 to 2021, utilizing a modified endogenous growth model and the ARDL bound test model approach to co-integration. The research uncovers significant findings, demonstrating that expenditures in sectors such as health, agriculture, education, roads, and water positively impact long-term economic growth, while defense expenditures and foreign aid have adverse effects. The short-term analysis reveals varying sector-specific impacts, with agriculture and road expenditures positively influencing growth, whereas health, education, and foreign aid negatively affect it. The study highlights the crucial role of efficient budgetary resource management and the prioritization of pro-poor sectors to achieve sustained and inclusive economic growth. These insights offer valuable guidance for policymakers in optimizing government expenditure strategies to foster economic prosperity in Ethiopia. [ABSTRACT FROM AUTHOR]

Published

2024

28. Ecophysiological adaptability of rice sown on residual ridges of previous soybean cultivation.

Author

Corte Bernardi, Nathalia Dalla, Melo Stradioto, Thaís, Barbat Parfitt, José Maria, Deuner, Sidnei, Borges Ribeiro, Ítalo, and Concenço, Germani

Subjects

FURROW irrigation, SOYBEAN farming, CROPS, PLANT performance, BLOCK designs

Abstract

The furrow-ridge system was designed to allow the cultivation of dryland crop species in lowlands, enabling rotation with rice. After harvesting the dryland species, farmers usually return with rice in the following cropping season, with costs associated with dismantling ridges before sowing rice. The possibility of sowing rice directly on residual ridges should be investigated to avoid these costs. The objective was to verify the ecophysiological adaptability of rice sown on residual ridges from the previous dryland crop in lowlands, and to identify possible factors impacting the physiological performance of rice plants in this new production system. The experiment was installed in the field in a randomized block design with 5 treatments and 12 replications. The treatments considered the plant's position in the field and in the irrigation furrow. The parameters of the growth analysis were calculated using the classical method. There was no significant damage to rice plants in any part of the field, and there was no difference between plants at the top or bottom of the furrow. Therefore, there is no need to dismantle residual ridges from previous dryland crops before planting rice in the succeeding cropping season in the lowlands of Rio Grande do Sul State, Brazil. [ABSTRACT FROM AUTHOR]

Published

2024

29. Role of DEAD-box RNA helicases in low-temperature adapted growth of Antarctic Pseudomonas syringae Lz4W

Author

Ashaq Hussain and Malay Kumar Ray

Subjects

cold adaptation, RNA helicases, gene disruption, homologous recombination, growth analysis, functional complementation, Microbiology, QR1-502

Abstract

ABSTRACT Pseudomonas syringae possesses genes for all five major DEAD-box RNA helicases, rhlE, srmB, csdA, dbpA, and rhlB, that are found in γ-proteobacteria. Bioinformatic analysis of the RNA helicase genes provided detailed insights into their genomic organization, promoter characteristics, regulatory 3′ regions, and sequence similarity. Disruption of rhlB and rhlE genes did not have any effect on growth of the P. syringae mutants at optimum (22°C) or at low (4°C) temperatures. On the other hand, disruption of srmB and dbpA genes caused a slow-growing phenotype in the mutants at low temperature (4°C). In comparison to the above-mentioned helicases, deletion of csdA gene caused the mutant (ΔcsdA) to be totally incapable of growing at 4°C while marginally affecting the growth (resulting in slow growth) at the optimum temperature (22°C). Functional complementation studies revealed that RNA helicases are functionally non-redundant, as the roles performed by different helicases are individual and specific. IMPORTANCE RNA metabolism is important as RNA acts as a link between genomic information and functional biomolecules, thereby playing a critical role in cellular response to environment. We investigated the role of DEAD-box RNA helicases in low-temperature adapted growth of P. syringae, as this group of enzymes play an essential role in modulation of RNA secondary structures. This is the first report on the assessment of all major DEAD-box RNA helicases in any Antarctic bacterium. Of the five RNA helicases, three (srmB, csdA, and dbpA) are important for the growth of the Antarctic P. syringae at low temperature. However, the requisite role of dbpA and the indispensable requirement of csdA for low-temperature adapted growth are a novel finding of this study. Growth analysis of combinatorial deletion strains was performed to understand the functional interaction among helicase genes. Similarly, genetic complementation of RNA helicase mutants was conducted for identification of gene redundancy in P. syringae.

Published

2024

30. GROWTH ANALYSIS, YIELD AND YIELD COMPONENTS OF SWEET CORN (Zea Mays L.) AS INFLUENCED BY INTER-ROW SPACING.

Author

Dizayee, A. S. A.

Subjects

SWEET corn growing, PLANT growth, CROP yields, PLANT spacing, LIGHT transmission in plant canopies

Abstract

Copyright of Anbar Journal of Agricultural Sciences is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) 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

2023

31. Alternate wetting and drying irrigation technology for sustainable rice (Oryza sativa) production.

Author

Mote, Kishor, Rao, V. Praveen, Ramulu, V., Kumar, K. Avil, Devi, M. Uma, and Sudhakara, T. M.

Abstract

The water saving technology for lowland rice cultivation was very crucial because of in the future irrigation water become scarce and competed with other sectors. The lowering of the availability of irrigation water had the impact for sustainability of rice production. The study revealed that treatment I1 attributed by the highest total water use (1646 mm) and the lowest Water productivity (0.46 kg m−3) produced the highest grain yield (7.56 t/ha). Treatment I5 and I6, on the contrary, gave the second highest yield (7.21 and 7.05 t/ha) and consequently the second highest water productivity (0.65 and 0.59 kgm−3) indicating quite a large water saving (26.6 and 35%) compared to treatment I1. The yields in treatments I4 (6.0 t/ha) and I8 (6.30 t/ha) were significantly lower at 5% level of significance compared to that of treatment I1. No significant effect was found for the AWD irrigation regimes on the post-harvest soil nutrient status. Reduced plant height, leaf area index, plant nutrient uptake, grain yield, straw yield and harvest index were found with the increasing water stress. The study emphasized that rice crop can be successfully grown by adopting an appropriate AWD irrigation regime without any significant yield decline under sandy clay soils. [ABSTRACT FROM AUTHOR]

Published

2023

32. Different regrowth patterns after repeated clipping in two Mongolian pasture species.

Author

Hu, Richa, Yoshihara, Yu, Gantsetseg, Batdelger, and Kinugasa, Toshihiko

Subjects

LEAF area, PASTURES, SPECIES, FACTOR analysis, WHEATGRASSES

Abstract

We investigated changes in the regrowth patterns of two grass species on the Mongolian steppe, Agropyron cristatum and Stipa krylovii, in response to repeated clipping and used a growth analysis to identify the factors responsible for differences in their regrowth patterns. Plants grown in pots were clipped every 3 weeks, and leaf area, dry mass, and N and crude fiber contents were measured. Aboveground biomass recovered to the same level as that before clipping in both species even after 3 clipping–regrowth cycles, but their regrowth patterns differed. In A. cristatum, a decrease in biomass allocation to aboveground parts with repeated clipping was fully compensated by the positive effect derived from the increase in growth rate due to increased leaf area expansion associated with an increase in specific leaf area (SLA). In S. krylovii, a decrease in SLA reduced leaf area but at the same time increased N content per unit leaf area and consequently photosynthetic ability, leaving the growth rate unchanged. The values of growth parameters involved in regrowth after clipping changed with repeated clipping and those changes differed between species. In particular, the difference in the response of SLA to repeated clipping contributed greatly to the difference in regrowth patterns. As SLA reflects leaf toughness and grazing tolerance as well as leaf thickness and density, our results imply that the leaf morphological change at regrowth as plant strategies against grazing contribute to plants' regrowth patterns. [ABSTRACT FROM AUTHOR]

Published

2023

33. Changes of the Growth Rate of Wheat and Canola with Soil Amendments Application in Crop Rotation.

Author

Akbari, Hamed, Modarres-Sanavy, Seyed Ali Mohammad, and Heidarzadeh, Ali

Abstract

Integrated nutrient management in crop rotation conditions (Canola-Soybean-Wheat) is important for farm management. Four years of field experiments were conducted to assess the effects of organic and inorganic soil fertility amendments on crop growth and soil physiochemical properties during 2014–2018. The experiments were carried out based on a randomized complete block design, with the split-plot arrangement of treatments and three replications. Two crop rotations (Canola-Soybean-Wheat; Canola-Wheat) were randomized to the main plot units and nine fertilization management (F1: urea, F2: urea + zeolite, F3: composted manure, F4: composted manure + zeolite, F5: urea + composted manure, F6: urea + composted manure + zeolite, F7: urea + azocompost, F8: urea + azocompost + zeolite and F9: control) were randomized to the sub-plots. The maximum dry matter and the growth rate at linear phase were estimated in F6 fertilizer treatment for canola (665.05 g m−2 and 6.67 g m−2 d−1) and wheat (716 g m−2 and 7.19 g m−2 d−1), respectively. The maximum soil organic carbon (SOC) was observed in the second year of the experiment by the integrated fertilizing management (F6 = 1.26%) while the lowest SOC was observed in control (F9 = 0.65%). Application of zeolite in all of the experimental treatments resulted in higher soil cation exchange capacity (CEC). The maximum soil K (115.23 ppm), P (113.73 ppm), Zn (10.07 ppm) and Mn (12.35 ppm) were observed in organic treatments incorporated with zeolite (F4). Our study found that application of organic amendments such as azocompost and manure composts incorporated with chemical fertilizer and zeolite can be recommended to improve soil fertility and growth properties of wheat and canola crops. [ABSTRACT FROM AUTHOR]

Published

2023

34. Cotyledons as the primary source of carbon and mineral nutrients during early growth of a savanna tree

Author

Nunes, Tayara Colins, Ferreira, Cristiane Silva, Williams, Thomas Christopher Rhys, and Franco, Augusto Cesar

Published

2024

35. GEOGRAPHIC VARIATION IN TOTAL PHENOL CONTENT AND SPECIFIC LEAF AREA, AS ANTIOXIDANT INDICATORS OF MAQUI IN CENTRAL CHILE.

Author

Misle A., Enrique, Garrido G., Estrella, Contardo P., Hugo, and Kahlaoui, Besma

Subjects

LEAF area, SUNSHINE, PHENOL, PLANT phenols, ANTIOXIDANTS, LONGITUDE, STATISTICAL correlation

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

2023

36. Selenium and Iodine Biofortification Interacting with Supplementary Blue Light to Enhance the Growth Characteristics, Pigments, Trigonelline and Seed Yield of Fenugreek (Trigonella foenum - gracum L.).

Author

Ramezani, Sadrollah, Yousefshahi, Behnaz, Farrokhzad, Yusuf, Ramezan, Dariush, Zargar, Meisam, and Pakina, Elena

Subjects

*FENUGREEK, *BLUE light, *CHLOROPHYLL in water, *BIOFORTIFICATION, *SELENIUM, *SEED yield, *FACTORIAL experiment designs, *SEED treatment

Abstract

Fenugreek (Trigonella foenum-graecum) is an annual plant belonging to the family Fabaceae and has fodder, medicinal and spice uses, and is also used as an organic fertilizer. A total of 18 treatments including the combination of two light environments (with and without supplementary blue light), three concentrations of potassium iodate (0, 2 and 4 mg L−1) and four concentrations of sodium selenate (0, 2 and 4 mg L−1) were organized in a three-way factorial experiment to evaluate the growth characteristics, pigments, trigonelline and seed yield of fenugreek in a greenhouse. The application of 4 mg L−1 of Se resulted in the highest carotenoid, anthocyanin, plant length, fresh weight, chlorophyll and relative water content. The fresh and dry weight of the shoot and the anthocyanin increased with the 2 h supplementation of sunlight with a blue spectrum; however, the fresh root decreased. The interaction of blue light with 0 mg L−1 of Se significantly reduced the plant length. The content of trigonelline was significantly improved with the application of blue light supplementation without negatively affecting the seed yield. In general, 2 h supplementing of sunlight with blue light and feeding with 4 mg L−1 of selenium and iodine are recommended to improve various traits, including trigonelline content. [ABSTRACT FROM AUTHOR]

Published

2023

37. Analysis of Regional Agricultural Productivity Growth Using the Malmquist Productivity Index: The Case of Chugoku, Japan

Author

Yasunaga, Nobuyoshi, Higano, Yoshiro, Editor-in-Chief, Kiminami, Lily, editor, and Ishibashi, Kenichi, editor

Published

2022

38. Functional growth analysis of diploid potato varieties (Solanum tuberosum Phureja group).

Author

MARULANDA-ZAPATA, DAVID FELIPE, BARRERA-SÁNCHEZ, CARLOS FELIPE, and DE JESÚS CÓRDOBA-GAONA, OSCAR

Subjects

POTATOES, DRY matter content of plants, TUBERS, PLANT stems, LEAF area

Abstract

Copyright of Revista Colombiana de Ciencias Hortícolas is the property of Revista Colombiana de Ciencias Horticolas 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

2023

39. A direct comparison of ecological theories for predicting the relationship between plant traits and growth.

Author

Goud, Ellie M., Agrawal, Anurag A., and Sparks, Jed P.

Subjects

*PLANT growth, *LEAF area, *PHOTOSYNTHETIC rates, *BIOMASS, *FORECASTING

Abstract

Despite long‐standing theory for classifying plant ecological strategies, limited data directly link organismal traits to whole‐plant growth rates (GRs). We compared trait‐growth relationships based on three prominent theories: growth analysis, Grime's competitive–stress tolerant–ruderal (CSR) triangle, and the leaf economics spectrum (LES). Under these schemes, growth is hypothesized to be predicted by traits related to relative biomass investment, leaf structure, or gas exchange, respectively. We also considered traits not included in these theories but that might provide potential alternative best predictors of growth. In phylogenetic analyses of 30 diverse milkweeds (Asclepias spp.) and 21 morphological and physiological traits, GR (total biomass produced per day) varied 50‐fold and was best predicted by biomass allocation to leaves (as predicted by growth analysis) and the CSR traits of leaf size and leaf dry matter content. Total leaf area (LA) and plant height were also excellent predictors of whole‐plant GRs. Despite two LES traits correlating with growth (mass‐based leaf nitrogen and area‐based leaf phosphorus contents), these were in the opposite direction of that predicted by LES, such that higher N and P contents corresponded to slower growth. The remaining LES traits (e.g., leaf gas exchange) were not predictive of plant GRs. Overall, differences in GR were driven more by whole‐plant characteristics such as biomass fractions and total LA than individual leaf‐level traits such as photosynthetic rate or specific leaf area. Our results are most consistent with classical growth analysis—combining leaf traits with whole‐plant allocation to best predict growth. However, given that destructive biomass measures are often not feasible, applying easy‐to‐measure leaf traits associated with the CSR classification appear more predictive of whole‐plant growth than LES traits. Testing the generality of this result across additional taxa would further improve our ability to predict whole‐plant growth from functional traits across scales. [ABSTRACT FROM AUTHOR]

Published

2023

40. Far-red light interacts with salinity stress in Cucumis sativus seedlings partly through changes in photosynthate allocation

Author

Shibuya, Toshio, Nagata, Ayano, and Endo, Ryosuke

Published

2024

41. Vegetative Growth of Genipa americana L. Accessions

Author

Maira Camila Montoya-Areiza, Lucas Esteban Cano Gallego, Darío Antonio Castañeda-Sánchez, Sergio Arango-Arcila, and Oscar de Jesús Córdoba-Gaona

Subjects

jagua, growth analysis, weibull model, tropical forest, non-timber forest resources, Agriculture, Forestry, SD1-669.5

Abstract

Jagua (Genipa americana L.) is widely distributed throughout the Americas. It has been used since ancient times due to the pigments extracted from its fruit. This study aimed to evaluate the vegetative growth of five Jagua accessions by adjusting non-linear models to dasometric growth variables. The accessions (Porce, Chigorodó, San Carlos, San Luis, and Vigía del Fuerte in Antioquia) were collected in the central-western region of Colombia. The growth, determined through plant height and stem diameter (at 0.10 and 1.30 m), was evaluated for 262 weeks in the municipality of Amalfi. A descriptive analysis of the growth behavior of each accession was performed, and the fit of four nonlinear functional models was evaluated. An influence of the accession factor on growth was found due the different growth rates. The Weibull model was the one with the best fit and predictive capacity, which confirmed the differences between accessions.

Published

2022

42. Morphophysiological Characterisation of Guayule (Parthenium argentatum A. Gray) in Response to Increasing NaCl Concentrations: Phytomanagement and Phytodesalinisation in Arid and Semiarid Areas

Author

Daniela Di Baccio, Aurora Lorenzi, Andrea Scartazza, Irene Rosellini, Elisabetta Franchi, and Meri Barbafieri

Subjects

saline and hypersaline conditions, growth analysis, biomass partitioning, photosynthetic pigments, chlorophyll fluorescence, mineral composition, Botany, QK1-989

Abstract

Water and soil salinity continuously rises due to climate change and irrigation with reused waters. Guayule (Parthenium argentatum A. Gray) is a desert perennial shrub native to northern Mexico and the southwestern United States; it is known worldwide for rubber production and is suitable for cultivation in arid and semiarid regions, such as the Mediterranean. In the present study, we investigated the effects of high and increasing concentrations of sodium chloride (NaCl) on the growth and the morphophysiological and biochemical characteristics of guayule to evaluate its tolerance to salt stress and suitability in phytomanagement and, eventually, the phytodesalinisation of salt-affected areas. Guayule originates from desert areas, but has not been found in salt-affected soils; thus, here, we tested the potential tolerance to salinity of this species, identifying the toxicity threshold and its possible sodium (Na) accumulation capacity. In a hydroponic floating root system, guayule seedlings were subjected to salinity-tolerance tests using increasing NaCl concentrations (from 2.5 to 40 g L−1 and from 43 to 684 mM). The first impairments in leaf morphophysiological traits appeared after adding 15 g L−1 (257 mM) NaCl, but the plants survived up to the hypersaline conditions of 35–40 g L−1 NaCl (about 600 mM). The distribution of major cell cations modulated the high Na content in the leaves, stems and roots; Na bioconcentration and translocation factors were close to one and greater than one, respectively. This is the first study on the morphophysiological and (bio)chemical response of guayule to different high and increasing levels of NaCl, showing the parameters and indices useful for identifying its salt tolerance threshold, adaptative mechanisms and reclamation potential in high-saline environments.

Published

2024

43. The Hormetic Effect Observed for Benzalkonium Chloride and Didecyldimethylammonium Chloride in Serratia sp. HRI.

Author

McCarlie, Samantha J., Steyn, Laurinda, du Preez, Louis L., Boucher, Charlotte E., Hernandez, Julio Castillo, and Bragg, Robert R.

Subjects

SERRATIA, SERRATIA marcescens, BENZALKONIUM chloride, GRAM-negative bacteria, CHLORIDES, QUATERNARY ammonium compounds

Abstract

Hormesis, or the hormetic effect, is a dose- or concentration-dependent response characterised by growth stimulation at low concentrations and inhibition at high concentrations. The impact of sub-lethal levels of disinfectants on the growth of Serratia species is critical to understanding the increasing number of outbreaks caused by this pathogen in healthcare settings. Serratia sp. HRI and Serratia marcescens ATCC 13880 were cultivated in sub-lethal levels of benzalkonium chloride (BAC), Didecyldimethylammonium chloride (DDAC), and VirukillTM. The maximum specific growth rates, doubling times, and cell counts were compared. The results revealed significant increases in maximum specific growth rates and shorter doubling times for Serratia sp. HRI when cultivated in sub-lethal levels of BAC and DDAC. The significant stimulatory effect of sub-lethal levels of these disinfectants for Serratia sp. HRI represents the first time hormesis has been observed in a Gram-negative bacterium for any disinfectant. Furthermore, this study is the first to observe the hormetic effect after treatment with DDAC and the second study to date analysing the impact of sub-lethal levels of disinfectants on the growth of bacterial species. [ABSTRACT FROM AUTHOR]

Published

2023

44. Response of organic manures and varieties on growth and yield of cowpea (Vigna unguiculata (L.) Walp) at Bharatpur, Chitwan, Nepal.

Author

Paudel, Aashma, Adhikari, Bishnu Bilas, and Amgai, Asmita

Subjects

MANURES, COWPEA, CLIMATE change, MOISTURE, GRAIN yields

Abstract

An experiment entitled "Response of organic manures and varieties on growth and yield of cowpea at Bharatpur, Chitwan" was conducted in Agronomy farm of Nepal Polytechnic Institute during spring season 2022. The experiment was conducted in two factorial Randomized Complete Block Design with three replications and ten treatments. The treatments were set as two variety: V1: Surya and V2: Prakash as factor A and 20 kg N from different sources of organic manures (OM): OM1: FYM (0.5%N) 4 t ha-1, OM2: Poultry manure (5%N) 0.4t ha-1, OM3: Vermicompost (2.5% N) 0.8 t ha-1, OM4: Suchit biofertilizer (8.72% N) 0.23 t ha-1, OM5: Mustard oil cake (5.2% N) 0.39 t ha-1 as factor B. The main objective of the experiment was to find out the best variety and good organic manure for getting better yield of cowpea under rainfed condition. Results revealed that the variety Surya produced the highest grain yield (1.01 t ha-1) followed by Prakash (0.91 t ha-1). In case of organic manures, the highest grain yield (1.37 t ha-1) was obtained in 4 t ha-1 of FYM applied plot. The interaction effect between variety and organic manures showed that the variety Surya along with 4 t ha-1 FYM showed maximum grain yield (1.41 t ha-1). From this experiment, it is concluded that the use of variety Surya with 4 tons of FYM ha-1 gives the highest productivity with better economic return compared to all other treatments. [ABSTRACT FROM AUTHOR]

Published

2023

45. Antimicrobial activity effects of electrolytically generated hypochlorous acid-treated pathogenic microorganisms by isothermal kinetic simulation.

Author

Tsai, Shu-Yao, Liu, Yu-Ming, Lin, Zhi-Wei, and Lin, Chun-Ping

Subjects

*PATHOGENIC microorganisms, *ESCHERICHIA coli, *CORONAVIRUSES, *ANTI-infective agents, *SARS-CoV-2, *AUTOCATALYSIS

Abstract

This study involves isothermal kinetic simulation to evaluate the parameters of inhibition conditions for Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) of high-risk pathogens. This is because the new type of the 2019 novel coronavirus (2019-nCoV) is continuously spreading and the importance of public health issues. Environmental disinfection and personal wearing of masks have become important epidemic prevention measures. Selection of concentration kinetics could be estimated best for E.coli and S. aureus of pathogens, 2.74 × 104 and 105 and 2.44 × 104 and 105 colony-forming units (CFU mL–1), by isothermal micro-calorimeter (TAM Air) tests, respectively. Comparisons were made of different doses of 0–70 ppm (in 20 mL test ampoule) hypochlorous acid treatment for conducting nth-order and autocatalytic reaction simulation to evaluate the inhibition reaction parameters, which determined the autocatalytic kinetic model that was beneficially applied on the E. coli and S. aureus. We developed the inhibition reaction parameters of the pathogens, which included the activation energy (Ea), the natural logarithm of pre-exponential factor (lnk0), the enthalpy of inhibition microbial growth reaction (∆H), inhibition microbial growth, and the inhibition growth analysis. Overall, we conducted isothermal kinetic simulation to understand the antimicrobial activity effects of electrolytically generated hypochlorous acid-treated pathogenic microorganisms, which will provide reference for public health and medical-related fields for SDG3, and can contribute to ensuring human health and hygiene. [ABSTRACT FROM AUTHOR]

Published

2023

46. THE ADMINISTRATION OF SMES IN ECUADOR: GROWTH ANALYSIS AND INDICATORS.

Author

Granizo Espinoza, Ximena Patricia

Subjects

SMALL business, BIBLIOMETRICS, COUNTRY of origin (Immigrants), DATABASES, ECONOMIC indicators, CITATION indexes

Abstract

A documentary review was carried out on the production and publication of research papers related to the study of the variables SMEs and Growth Indicators. The purpose of the bibliometric analysis proposed in this document was to know the main characteristics of the volume of publications registered in the Scopus database during the period 201 7-2022, achieving the identification of 124 publications. The information provided by this platform was organized through graphs and figures categorizing the information by Year of Publication, Country of Origin, Area of Knowledge and Type of Publication. Once these characteristics have been described, the position of different authors towards the proposed theme is referenced through a qualitative analysis. Among the main findings made through this research, it is found that China and Russia, with 1 1 publications were the countries with the highest scientific production registered in the name of authors affiliated with institutions of thesenations. The Area of Knowledge that made the greatest contribution to the construction of bibliographic material referring to the study of the administration of SMEs, as well as the growth indicators was Business, Administration and Accounting with 60 published documents, and the Type of Publication most used during the period indicated above was theArticles with 78% of the total scientific production. [ABSTRACT FROM AUTHOR]

Published

2023

47. Seasonal growth analysis of a white clover meadow {Trifolium repens L.).

Author

Hernández Moreno, Edgar, Ventura Ríos, Joel, Wilson García, Claudia Yanet, Maldonado Peralta, María de los Ángeles, Guerrero Rodríguez, Juan de Dios, Munguia Ameca, Graciela, and Rojas García, Adelaido Rafael

Subjects

*WHITE clover, *LEAF area index, *SPRING, *AUTUMN, *HARVESTING time, *SEASONS

Abstract

The objective of the present study was to assess a growth analysis of white clover (Trifolium repens L.) and determine the optimal harvest time per season. The experiment was carried out at the Colegio de Postgraduados, Campus Montecillo, Texcoco, Mexico. Twenty-four 3.7 X 1.7 m plots were used, distributed in a completely randomized design, with eight treatments and three replicates per station. The treatments consisted of successive weekly cuts, during a regrowth cycle of 8 wk, in each season of the year. At the beginning of the study, a uniform cut was made and the residual forage was determined. The evaluated variables were: accumulation of dry matter, botanical and morphological composition, and leaf area index of white clover. The highest forage accumulation (P<0.05) occurred in the eighth week in spring (2,688 kg DM ha-1). Leaf production was higher (P<0.05) in spring, autumn and winter. The highest leaf area index was reached in the eighth week in spring (3.0; F<0.05). It is recommend exploiting the white clover meadow in the sixth week of the springsummer period and in the seventh week of autumn-winter. [ABSTRACT FROM AUTHOR]

Published

2023

48. Phytoremediation Assessment of Mentha crispa L. in Zinc-Contaminated Oxisols: Tolerance and Accumulation Dynamics.

Author

Bilmayer AF, Locatelli S, Pomini M, Reis TF, Anami MH, de Oliveira EF, Kowalik R, Challiol AZ, and Furtado da Silva A

Subjects

Biodegradation, Environmental, Soil Pollutants metabolism, Zinc metabolism, Zinc analysis, Mentha metabolism, Mentha chemistry, Plant Roots metabolism, Plant Roots chemistry, Plant Leaves metabolism, Plant Leaves chemistry

Abstract

This study assessed the phytoremediation potential of Mentha crispa L. grown in Oxisol contaminated with varying zinc concentrations. Mentha crispa was cultivated in soil with Zn levels from 0 to 1920 mg kg -1 . Growth parameters, Zn concentrations in plant parts, bioaccumulation, and translocation factors were measured. The results revealed that Mentha crispa exhibited a high tolerance to elevated Zn levels, accumulating up to 1875 mg kg -1 in its leaves and 2047 mg kg -1 in its roots. The bioaccumulation factor ranged from 1.2 to 4.5, and the translocation factor ranged from 1.2 to 2.7, indicating effective Zn uptake and distribution within the plant. The metal extraction rates varied across treatments, with the estimated time for Zn removal ranging from 12 to 34 years. These findings underscore the suitability of Mentha crispa as a candidate for phytoremediation of Zn-contaminated tropical soils, particularly Oxisols, which are characterized by high metal adsorption capacity. Additionally, its ability to produce essential oils enhances its viability for integrated environmental and economic applications.

Published

2025

49. Conditioning of desert sandy soil and investigation of the ameliorative effects of poultry manure and bentonite treatment rate on plant growth

Author

T. Younas, G. G. C. Cabello, M. A. Taype, J. A. L. Cardenas, P. D. C. Trujillo, W. H. Salas-Contreras, R. Yaulilahua-Huacho, F. O. Areche, A. R. Rodriguez, D. D. Cruz Nieto, E. T. C. Chirre, and A. H. Gondal

Subjects

soil physiochemical properties, sandy soil conditioning, bentonite, poultry manure, plants, growth analysis, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Soil is the base of any ecosystem since it conserves nutrients and water for plant roots including agriculture and plantations. In dry and semi-arid places across the world, including the UAE, sandy soils are common. Their fertility is extremely low, and production is hampered by a number of agronomic challenges. Soil conditioner sources like bentonite and chicken manure might be used to improve the poor sandy soil attributes and hence boost soil productivity. From November 2019 to March 2020, an experiment was conducted to investigate the growth rates of Bougainvillea following bentonite and chicken manure amendments to sandy soil taken from Lehbab, Dubai. Bougainvillea was evaluated for its plant height (cm), max length of primary branch (cm), the number of leaves per plant, number of secondary branches, shoot weight (g), root length (cm), root weight (g), root/shoot ratio, chlorophyll contents, and chlorophyll a* and b*. In this experiment, a complete randomized design (CRD) with five treatments was used (10 replications per treatment). According to the findings, bentonite and chicken manure additions considerably influence the productive properties of sandy soil, as indicated by Bougainvillea growth. Additionally, the research suggests that Bougainvillea may be efficiently planted with 10% bentonite and 15% chicken manure applied to sandy soil, resulting in the healthiest plants compared to other amendments.

Published

2023

50. Trajectories of loneliness, depressive symptoms, and anxiety symptoms during the COVID-19 pandemic in Austria.

Author

Mayerl, H., Stolz, E., and Freidl, W.

Subjects

*STRUCTURAL equation modeling, *SOCIAL support, *CONVALESCENCE, *MENTAL health, *INTERVIEWING, *LONELINESS, *MENTAL depression, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *ANXIETY disorders, *COVID-19 pandemic, *PSYCHOLOGICAL resilience, *CONTROL (Psychology), *OLD age

Abstract

There is considerable heterogeneity within populations regarding the effects of the COVID-19 pandemic on mental health. This study aimed at identifying latent groups of individuals within the older Austrian population that differ in their mental health trajectories across three phases of the pandemic. Data were gathered from a longitudinal survey study among a sample of older adults in Austria. The survey was carried out in May 2020 (N 1 = 556), March 2021 (N 2 = 462), and December 2021 (N 3 = 370) via either computer-assisted web or telephone interviewing. Latent class growth analysis was conducted to explore different homogenous groups in terms of non-linear trajectories of loneliness, depressive symptoms, and anxiety symptoms as well as potential correlates thereof. We identified four latent classes. The vast majority of individuals belong to two classes that are either resilient (71%) or that have recovered relatively quickly from an initial COVID-19 shock (10.2%). Deterioration in mental health after the first phase of the pandemic (13.4%) or a generally high mental health burden (5.4%) characterizes the other two classes. About 19% of individuals showed increasing or elevated levels in loneliness, depressive symptoms, and anxiety symptoms across the COVID-19 pandemic. The feeling of being socially supported and in control over one's own life emerged as potentially protective factors. [ABSTRACT FROM AUTHOR]

Published

2022