Physiological Quality Of Seeds Research Articles

The Effect of Selenium Sources and Rates on Cowpea Seed Quality

Selenium (Se) is a beneficial element for plants and is essential for human nutrition. In plants, it plays an important role in the formation of selenocysteine and selenomethionine and in the activation of hydrolytic enzymes, which can aid in seed germination and reduce abiotic stress during germination. The objective of this study was to evaluate the effects of the application of selenium sources and rates to the soil on the physiological quality of cowpea seeds. The experimental design was a randomized block with four replications and a factorial scheme (7 × 2). Two sources of Se (sodium selenate and sodium selenite) and seven rates (0, 2.5, 5, 10, 20, 40 and 60 g ha−1) were used. Physiological characterization was carried out by first counting of germination, germination, emergence, accelerated aging, cold testing, electrical conductivity, length and dry biomass of shoots and roots. Germination after accelerated aging increased with selenate, even at higher rates, whereas selenite provided benefits at lower rates. Selenation linearly increased germination after the cold test and linearly reduced electrolyte leakage as the Se rate increased. The soil application of Se is beneficial for cowpea seed quality. Compared with those treated with sodium selenite, cowpea plants treated with sodium selenate through the soil produce more vigorous seeds. The application of 10 g ha−1 Se in the form of sodium selenate provides seedlings with faster germination and root development and is an alternative for rapid stand establishment.

Influence of nitric oxide donor on the physiological quality of seeds of Myrcia retorta Cambess

Brazil, with its vast biodiversity, is home to several species of the Myrtaceae family with significant ornamental potential that is still underutilized. Myrcia retorta Cambess is a endemic Brazilian plant wich stands out as a promising species for ornamental cultivation. The objective of this study was to evaluate the effect of the nitric oxide donor S-nitrosoglutathione (GSNO) on the germination of M. retorta seeds, with the aim of optimizing germination conditions for the domestication of this species. The seeds were divided into two batches based on their morphology: Batch 1 (spherical seeds) and Batch 2 (flattened seeds). The seeds were treated with five concentrations of GSNO (0, 2.5, 5, 10, and 15 mM) and the parameters evaluated included germination percentage, shoot and root length, and time to stabilization of germination. In batch 1, doses of 2.5 mM and 5 mM GSNO resulted in faster germination stabilization (6 and 7 days, respectively) compared to the control (9 days). In addition, these doses increased germination percentage by 15% and 12%, respectively. However, higher concentrations (10 mM and 15 mM) were found to be phytotoxic, reducing shoot length by 30% and 45% and root length by 28% and 42%, respectively. In batch 2, although no statistically significant differences were observed, a trend towards reduced germination and growth with increasing GSNO doses was observed. It is concluded that GSNO positively affects the germination and initial development of M. retorta at low concentrations, especially in spherical seeds, suggesting its potential in the domestication process of the species for ornamental purposes. However, doses higher than 5 mM should be avoided due to toxicity risks, highlighting the need to optimize concentrations for practical application.

Drought alters the physiological quality of runner-type peanut seeds during seed formation

Sub-optimal water supply during crop development, especially during peak flowering and pod filling, affects the quality of the produced seeds, generally resulting in poor seed quality. The goals of this study were to identify the acquisition pattern of physiological components in peanut seeds as well as to assess the impact of drought during peanut seed development on its physiological quality. The research was conducted at the USDA-ARS National Peanut Research Laboratory in Dawson, GA for three consecutive years (2019, 2020, and 2021) using field conditions under two water regimes, well-watered control and drought stress. Rainout shelters were used to prevent rain in the drought-stressed block for 30 d, starting 80 d after planting. The well-watered block received supplemental irrigation when soil water potential reached −40 kPa. Peanut pods from the cultivar Georgia-06G were harvested at 2500 growing degree days, and the peanut maturity profile board was used to classify the pods into different maturity classes. Germination, vigor, desiccation tolerance (DT), and longevity tests were performed on seeds from each maturity class and both water regimes. The acquisition pattern for the physiological components of seed quality was developed for seeds grown under well-watered and drought conditions. Maximum germination occurred in 'brown 1' and 'brown 2' under drought and well-watered conditions, respectively. Both water regimes reached maximum vigor in the 'brown 1'; however, under well-watered conditions, vigor had a rapid decline after 'brown 1' while under drought stress, the decline in vigor was slower. Maximum DT was achieved between ‘orange’ and 'brown 1' under drought conditions, whereas under well-watered conditions, maximum DT was achieved between 'brown 2' and 'black 1'. Seeds from immature classes had lower capacity to be stored compared with mature seeds. Overall, drought stress promoted greater physiological quality in the peanut seeds than the well-watered treatment. Maximum physiological quality was achieved in the transition from ‘orange’ into 'brown 1' under drought conditions, and in the transition from 'brown 2' to 'black 1' class under well-watered conditions. Also, drought stress preserved seed quality for a longer period.

The Physical and Physiological Quality of Informal Seeds of Rwanda: Case of Common Bean (Phaseolus Vulgaris L.)

This study was carried out at the laboratories of the Department of Seed, Crop, and Horticultural Sciences; School of Agriculture and Biotechnology; University of Eldoret, Kenya, on common bean seed samples collected in major growing areas’ markets of the Southern Province of Rwanda, where informal seeds are predominant and with a varied physical and physiological seed quality. Therefore, we conducted this study to assess the physical and physiological quality of seeds in Rwanda's informal system through laboratory tests. The GenStat computer package was used to run data. The markets of Kamonyi, Muhanga, and Nyanza are sources of market common bean informal seed in the southern province of Rwanda. The physiological qualities were more in the sample M1E from Muhanga market, locally known as Shyushya, because this local variety proved to be the best to have better seeds that develop into normal plants (96.5%) and vigorous plants through first count and speed of germination with 95.5% and 26.11, respectively. This was also observed on the sample M2C from Nyanza that shares the same local name. Nyanza market had more physiological qualities than the others; its seeds grew more into normal plants (72.2%) and vigorous plants via first count and speed of germination with 63.3% and 21.68, respectively, than the others. Muhanga market had more good physical characteristics of seeds, with the highest mean of thousand seed weight (340.9 grams) and seed length (1.31 cm). The sample M2B, locally known as Mutiki, is a variety with the highest mean of thousand seed weights (446.1 grams), and this is common with other samples (M2B and M3A) locally known as Mutiki from other markets. This study revealed that the inform variety known as Shyushya is to be considered for agronomical purposes, while the formal variety locally known as Mutiki could be considered for market purposes. Nyanza market to be considered as the source of seeds for the agronomical aspects, while Muhanga market could be the source of seed for the grains of market

Evaluation of physiological quality and vigor of corn seeds coated with chitosan

Evaluation of physiological quality and vigor of corn seeds coated with chitosan

Interference of mechanical damage on the physiological performance of corn seeds

Corn (Zea mays L.) is cultivated and consumed globally due to its nutritional qualities and short production cycle. However, during harvesting, processing, transportation, and storage, seeds are susceptible to various types of damage that can compromise their productive capacity, affecting both germination and plant vigor. Therefore, this study aimed to evaluate the physiological quality of corn seeds subjected to different types of mechanical damage. The experiment was conducted at the Laboratory of Storage and Processing of Agricultural Products at the Federal University of Campina Grande, Campina Grande, Paraíba, Brazil. Corn seeds were subjected to four types of mechanical damage: hammering, cutting, abrasion, and perforation, alongside a control sample that did not undergo any mechanical damage. Each treatment (mechanical damage) consisted of 200 seeds, which were evaluated through germination tests, including first count, germination rate, germination speed index (GSI), seedling dry weight, and root length. The experiment was conducted in Completely Randomized Design. Data were subjected to Analysis of Variance, and means were compared using the Scott-Knott test (P ≤ 0.05) when necessary. Mechanical damage reduces the germination and vigor of corn seeds. Cutting-type damage affects corn seeds more severely, reducing germination by an average of 80% and impairing vigor.

Physiological quality of green corn seeds under water stress conditions

This study aimed to evaluate the physiological quality of green corn seeds subjected to water stress. The experimental design used was completely randomized, in a 2 x 5 factorial arrangement, consisting of two corn hybrids (AG1051 and BRS3046) and five osmotic potentials (0; -0.4; -0.8; -1.2 and – 1.6 MPa) simulated with aqueous solutions of polyethylene glycol 6000 (PEG 6000), with four replications of 50 seeds per treatment, totaling 40 experimental units. The analyzed variables were: water content, germination, root protrusion, final root protrusion, germination speed index, root length and coleoptile length. There was a significant effect of the interaction between hybrid factors and osmotic potentials for all analyzed variables, except for final root protrusion, which showed an isolated effect for the two factors studied. The results obtained indicated a higher percentage of germination and initial development of green corn seedlings for green corn seeds, hybrids AG1051 and BRS3046 at the osmotic potential of 0.0 MPa. The germination and vigor of green corn seeds decrease under water stress conditions from the osmotic potential of -0.4 MPa induced by PEG 6000, inhibiting the development of normal seedlings, affecting seed viability. Hybrid AG1051 presents superior germination and vigor compared to BRS3046.

Quality of Castor the Seeds Stored in Different Environments and Type of Packaging

One of the ways to offer high quality seeds to the market is to work on better storage conditions to keep the physiological quality of the seeds high. Thus, this work aimed to evaluate the physiological quality of hybrid castor seeds during storage in different environments and packaging in the Cerrado conditions. A completely randomized design with plots subdivided over time was used, with four replications. In the plots the factorial 2x3x7 was designated, being: 2 environments (cold chamber and laboratory environment) and 3 packages (kraft paper, plastic bag and PET bottle) and in the subplots the 7 storage times (0, 2, 4, 6, 8, 10 and 12 months). The castor seeds used were from the hybrid cultivar AG IMA 110204 and were stored in the laboratory of the State University of Goiás, Câmpus Anápolis. The following tests were carried out: water content, germination test, first count, electrical conductivity, length, seedling dry mass and seedling dry mass density. The data were submitted to analysis of variance, the qualitative treatments when significant were compared by the Tukey test, while the quantitative treatments were submitted to the regression analysis. It is recommended to use both a plastic bag and a PET bottle to package AG IMA 110204 hybrid castor seeds during twelve-month storage, both in cold storage and in a laboratory environment.

Effect of salinity on germination and physiological quality of passion fruit seeds

Effect of salinity on germination and physiological quality of passion fruit seeds

Flavonoids and their relationship with the physiological quality of seeds from different soybean genotypes

Flavonoids are compounds that result from the secondary metabolism of plants and play a crucial role in plant development and mitigating biotic and abiotic stresses. The highest levels of flavonoids are found in legumes such as soybean. Breeding programs aim to increase desirable traits, such as higher flavonoid contents and vigorous seeds. Soybeans are one of the richest sources of protein in the plant kingdom and the main source of flavonoid derivatives for human health. In view of this, the hypothesis of this study is based on the possibility that the concentration of isoflavones in soybean seeds contributes to the physiological quality of the seeds. The aim of this study was to analyze the content of flavonoids in soybean genotypes and their influence on the physiological quality of the seeds. Seeds from thirty-two soybean genotypes were obtained by carrying out a field experiment during the 2021/22 crop season. The experimental design was randomized blocks with four replications and thirty-two F3 soybean populations. The seeds obtained were subjected to germination, first germination counting, electrical conductivity and tetrazolium vigor and viability tests. After drying and milling the material from each genotype, liquid chromatography analysis was carried out to obtain flavonoids, performed at UPLC level. Data were submitted to analysis of variance and, when significant, the means were compared using the Scott-Knott test at 5% probability. The results found here show the occurrence of genotypes with higher amounts of flavonoids when compared to their peers. The flavonoid FLVD_G2 had the highest concentration and differed from the others. Thus, we can assume that the type and concentration of flavonoids does not influence the physiological quality of seeds from different soybean genotypes, but it does indirectly contribute to viability and vigor, since the genotypes with the highest FLVD_G2 levels had better FGC values. The findings indicate that there is a difference between the content of flavonoids in soybean genotypes, with a higher content of genistein. The content of flavonoids does not influence the physiological quality of seeds, but contributes to increasing viability and vigor.

Tolerance to desiccation and freezing of Passiflora alata Curtis cv BRS Mel do Cerrado seeds and pre-germination treatments

To define the best storage conditions, it is necessary to know the physiological behavior of the seeds. The objectives of this study was to evaluate the physiological quality of seeds of Passiflora alata Curtis cultivar “BRS Mel do Cerrado” with different water contents and frozen at -20 °C. The effect of pre-germination treatments on seed performance after drying and freezing was also evaluated. Seeds dried until water content of 12.6%, 7.6%, 5.5%, 4.9%, 4.5%, 4.3%, 3.8% and undried seeds (control) with 19.2% moisture were stored at -20 ºC for 100 days. Germination and vigor tests (germination speed index, GSI) were carried out on dried seeds in the presence or absence of a growth regulator (gibberellins + cytokinins) and on frozen seeds, in the presence or absence of ascorbic acid. Seed germination after drying was high, ranging from 78% to 94%, regardless of the use of the growth regulator. Different results were observed for vigor, since greater germination speed was observed in treated seeds. The freezing did not affect germination and vigor of seeds with moisture ≤7.6%, unlikely of frozen with high moisture seeds, which did not germinate. Seeds of BRS Mel do Cerrado cultivar tolerate desiccation at low water contents and do not tolerate freezing at high moisture levels of 19.2% and 12.6%. Ascorbic acid does not increase the germination and vigor of dry and frozen seeds with differents moistures.

Wheat seed quality assessment after thiamethoxam treatment: integrating optical techniques with standard methods

Insecticide treatment of seeds protects against early field pests. Therefore, studies on the physiological and biochemical responses of crops exposed to insecticides are required. Standard (non-optical) tests are used to evaluate the physiological quality of seeds. However, some tests may need to be more sensitive to observe possible differences between the control group and the groups of interest. Optical techniques such as ultra- weak photon emission and Fourier transform infrared spectroscopy have been discovered to aid standard tests. The effects of different doses of Thiamethoxam were evaluated on wheat seeds from the cultivar FPS Certero. Samples were divided into five groups: control and treated with 75, 150, 225, and 300 mL of Thiamethoxam for each 100 kg of seeds. The ultra-weak photon emission results showed that it was possible to classify the treatment doses through the intensity of photon emissions. The Fourier transform infrared spectroscopy analyses can be used for biological analysis but are unrelated to Thiamethoxam seed treatment. Considering the findings, optical techniques can be used as an additional tool for assessing the physiological quality of seeds.

Seed Longevity of Soybean (Glycine max L.) Cultivars Under Lightless Storage

Soybean seeds in tropical countries are prone to rapid deterioration due to environmental condition during storage, leading to a decrease in seed quality and ultimately resulting in low potential yield. Longevity of seed during storage is influenced by genetic and environmental factors such as light. Therefore, this study aimed to determine the effect of light on the vigour of two soybean seeds cultivars (Demas 1 & Devon 1 cvs) stored for three months. The investigation was conducted from February to May 2022 at Seed Technology Laboratory, Faculty of Agriculture, Universitas Padjadjaran. A correlational method was employed to assess the relationship between seed quality of Demas 1 and Devon 1 in light and lightless storage. Furthermore, data were analyzed using correlation regression and t-test to compare the two populations. The results showed that there was a high correlation between the physical and physiological quality of seeds. There were also differences in seed response to light, and this was observed from the moisture content, weight of 100 seeds, germination rate, and simultaneous growth percentage traits. Considering the seed quality traits, Demas 1 had the best vigour value after storage in dark conditions. It is worth noting that both cultivars exhibited signs of deterioration during storage. However, the rate of deterioration was slowed down due to lightless condition.

Quality assessment of soybean seeds submitted to industrial seed treatment and stored in a natural and controlled environment

Seed quality is a limiting factor in the search for high soybean yields. However, fungi and insect pests can negatively interfere with their performance, and industrial seed treatment (IST) is a tool used to minimize the attack of pathogens and pests. The treated seeds are often stored until sowing, which can lead to a reduction in their quality. This work aimed to evaluate the physical and physiological quality of soybean seeds submitted to IST, with subsequent storage in a natural and controlled environment. The experiment was conducted in a split-split-plot design in a completely randomized scheme (time x storage systems x IST) with four replications. Soybean cultivar 55I57RSF IPRO was subjected to IST with fungicide (metalaxyl-M, thiabendazole, and fludioxonil) and insecticide (thiamethoxam and cyantraniliprole), combined or not with polymer and dry powder, with subsequent storage in a controlled and natural environment. The moisture content, thousand-seed weights, germination, first germination count, germination speed index, accelerated aging, seedling length, dry matter transfer, and emergence sand test were evaluated. IST did not affect the moisture content and weight of a thousand seeds. However, storage in a controlled environment provided a greater reduction in moisture content and a smaller reduction in the weight of a thousand seeds. IST negatively affected germination, first germination count, germination speed index, and accelerated aging test. IST negatively affected plant length, except in the treatment where only insecticide was applied. The dry mass transfer was negatively affected but with less intensity in seeds subjected only to the application of insecticide or fungicide and the combination of insecticide, fungicide, and polymer. Seed emergence in the sand was negatively affected by all treatments. Regardless of the treatments, all responses evaluated showed a reduction throughout storage, with greater intensity in seeds stored in the natural environment.

Semisynthetic compounds for controlling Colletotrichum lindemuthianum on bean seeds

Anthracnose caused by Colletotrichum lindemuthianum is one of the main diseases that affect the bean crop. The use of semisynthetic compounds for controlling anthracnose aims at providing a higher balance to the ecosystem and a lower environmental impact. Based on this context, the objective of this work was: a) to carry out the prospection of compounds such as Phenyl S Citral, Phenyl Se Citronellal, and Citral at concentrations of 1, 0.5, 0.25, 0.125, 0.0625, 0.0312, 0.0156, 0.0078, and 0.0039%, which were modified from the essential oil of citronella and lemongrass, for controlling C. lindemuthianum; b) to evaluate the initial performance of seedlings and treat the incidence of C. lindemuthianum in bean seeds with Phenyl S Citral and Phenyl Se Citronellal at concentrations of 0.125 and 0.0625%. Phenyl Se Citronellal at 0.5% controlled 100% of mycelial growth and Phenyl S Citral at 0.5 and 1% controlled more than 50% of mycelial growth of C. lindemuthianum. The treatment with Phenyl S Citral and Phenyl Se Citronellal did not affect the physiological quality of bean seeds while increasing seedling development when using the 0.0625% concentration of Phenyl Se Citronellal. Treatment with Phenyl Se Citronellal at both concentrations decreased the incidence of C. lindemuthianum infection.

Production of Seedlings of Corymbia citriodora Inoculated with Endophytic Bacteria

This study aimed to evaluate the effect of inoculants of endophytic bacteria producing indoleacetic acid (IAA) on the physiological quality of seeds and the production of seedlings of Corymbia citriodora (Hook.) KD Hill & LAS Johnson. In the physiological quality test of the seeds, the treatments used were individual inoculation with Priestia megaterium, Exiguobacterium sibiricum, Pantoea vagans strain 45URP4-1, and Bacillus sp.; joint effect of the four strains (mix); inoculation only with the carrier (cassava starch and activated charcoal); carrier with 1.0 μg mL−1 of IAA; and non-inoculated control without IAA and without a carrier. In the production of seedlings in a greenhouse, the treatments were the same, except for the mix, which was replaced by P. vagans strain 7URP1-6 (Pvs7), as inoculation with the mix increased the number of abnormal seedlings. In the physiological quality test of seeds, seeds inoculated with the bacteria individually did not have the physiological quality impaired and the carrier created a microenvironment around the seeds, benefiting germination percentage, germination speed index, average germination time, and average germination speed. In the greenhouse, seedlings inoculated with Pvs7, P. megaterium and E. sibiricum were taller, with a larger stem diameter and dry mass of shoot, roots, and total. Seeds inoculated with E. sibiricum had higher averages for height, chlorophyll b content, and shoot and total dry mass, as well as a greater ability to colonize the rhizosphere and roots of C. citriodora, resulting in the production of higher-quality seedlings. Inoculation of seeds of C. citriodora with endophytic bacteria proved to be a promising alternative for plant development.

Physiological quality of sunflower seeds under water stressed conditions

Water is one of the factors that most influences the seed germination process; however, its excess can cause injuries to cell membranes due to rapid imbibition. On the other hand, water restriction limits seed germination, promoting a reduction in cell water potential that disrupts physiological and metabolic reactions. Thus, the objective of this study was to evaluate the physiological quality of sunflower seeds subjected to water stress induced by polyethylene glycol 6000 (PEG 6000). The experimental design used was completely randomized, consisting of six treatments consisting of osmotic potentials (0; -0.3; -0.6; -0.9; -1.2; and -1.5 MPa) simulated with aqueous solutions of PEG 6000. Germination, radicle protrusion, first count, germination speed index, abnormal seedlings, shoot length, and root length were evaluated. Water stress induced by PEG 6000 solutions affects the physiological quality of sunflower seeds, being proportional to the reduction of osmotic potential. Germination and seed vigor decrease under water stress conditions from an osmotic potential of -0.4 MPa, with the most negative potentials (-1.2 and -1.5 MPa) preventing seed germination.

Relationship Between Chemical Treatment of Soybean (Glycine max (L.) Merr.) Seeds and Synthesis of Antioxidant Enzymes

This research aimed to assess the relationship between chemical treatment with different combinations of products and the physiological quality of seeds stored for 0 and 180 days. The experimental design adopted was the completely randomized (CRD), with four replications. The treatments consisted of the “cultivar”, “seed treatments” and “storage periods” factors. To characterize the quality of the seeds, lignin quantification analysis, peroxidase activity analysis, catalase activity analysis, and scanning electron microscopy (SEM) were carried out. The physiological quality of the seeds decreases as the storage period increases. The lignin present in the seed coat of cultivar TMG 7061 IPRO provided greater protection compared to cultivar 7067. The images referring to cultivar 7067 showed morphological changes resulting from damage caused by the treatment and storage of the seeds.

Relationship Between Chemical Treatment of Soybean (Glycine max (L.) Merr.) Seeds and Synthesis of Antioxidant Enzymes

This research aimed to assess the relationship between chemical treatment with different combinations of products and the physiological quality of seeds stored for 0 and 180 days. The experimental design adopted was the completely randomized (CRD), with four replications. The treatments consisted of the “cultivar”, “seed treatments” and “storage periods” factors. To characterize the quality of the seeds, lignin quantification analysis, peroxidase activity analysis, catalase activity analysis, and scanning electron microscopy (SEM) were carried out. The physiological quality of the seeds decreases as the storage period increases. The lignin present in the seed coat of cultivar TMG 7061 IPRO provided greater protection compared to cultivar 7067. The images referring to cultivar 7067 showed morphological changes resulting from damage caused by the treatment and storage of the seeds.

Evaluation of the sanitary and physiological quality of corn seeds (Zea mays) submitted to treatment with bioextracts and their binary combinations

The objective of the present study was to evaluate the effects of the application of bioextracts on seeds of creole corn, regarding their physiological and sanitary quality. The bioextracts of garlic (Allium sativum L), citronella (Cymbopogon nardus), cloves (Caryophilus aromaticus), ginger (Zingiber officinale roscoe), and their binary combinations were evaluated. Regarding the physiological quality of the seeds, the following parameters were evaluated: first germination (G1), germination (G), dry mass and seedling length (aerial and root). Regarding sanitary control, in vitro tests were carried out for the pathology of the seeds for Fusarium sp. and Aspergillus sp. The results of physiological quality showed a germination rate between 90.8-76.4% of the creole corn seeds treated with bioextracts and their combinations did not differ significantly from the control (84.9%), except when clove alone (3.0% of germination) was used. The results of dry mass, length of shoots and root plants followed a similar trend to that observed for germination analysis. Regarding sanity, the best result was obtained with clove bioextract, which completely inhibited the occurrence of Penicillium sp. Therefore, these studies allow to affirm that bioextracts can be efficient in controlling pathogens and maintaining the physiological quality of creole corn seeds.