Your search keyword '"POLLEN viability"' showing total 22,799 results

101. Foliar-applied boron improves flag leaf reserves translocation, pollen viability and yield of aromatic monsoon rice

Author

Sayed Sajeeb Rana, Md Rafiqul Islam, Md Nasimul Bari, Md Abdul Baset Mia, and Md Zillur Rahman

Subjects

late planting, aromatic rice, boron, flag leaf, assimilates translocation, yield, Agriculture

Abstract

The planting of monsoon rice (locally known as aman rice) may be delayed due to late heavy rainfall in many regions of South and Southeast Asia resulting in high spikelet sterility with substantial yield loss due to low temperatures during the reproductive stage. Therefore, the study evaluated the performance of foliar-applied boron in mitigating that problem towards sustainable aman rice production. A field experiment was laid out in a randomized complete block design where different levels of boron viz. 0, 50, 100, 150, 200, and 250 ppm were foliar-sprayed at 33 and 47 days after transplanting (DAT) to a popular aromatic rice cultivar Kataribhog grown in late monsoon. Data were collected on phenology, SPAD value at variable dates, pollen viability, boron concentration in leaves and grains, and yield traits and yield. The pollen viability increased by 81.6% for 200 ppm boron. Boron decreased flag leaf weight but increased panicle weight. Simultaneously, it decreased flag leaf SPAD value and subsequent increase in grain yield, which indicates profound flag leaf reserves translocation into the grain. Foliar-applied B at 200 ppm showed a 32.4 and 40.9% increase of B in leaf and grain, respectively, and improved yield attributes resulting in grain yield by 47.0%. The grain yield had strong positive relations with the B content in leaf and grain, and yield contributing characters. The results conclude that foliar-applied appropriate dose of B can reduce spikelet sterility, individual grain weight and eventually enhance grain formation towards increasing yield in late sown aromatic monsoon rice. [Fundam Appl Agric 2021; 6(3.000): 232-244]

Published

2021

102. The Arabidopsis Protein Disulfide Isomerase Subfamily M Isoform, PDI9, Localizes to the Endoplasmic Reticulum and Influences Pollen Viability and Proper Formation of the Pollen Exine During Heat Stress

Author

Elizabeth Feldeverd, Brad W. Porter, Christen Y. L. Yuen, Kaela Iwai, Rina Carrillo, Tyler Smith, Cheyenne Barela, Katherine Wong, Pengfei Wang, Byung-Ho Kang, Kristie Matsumoto, and David A. Christopher

Subjects

protein folding, protein disulfide isomerase, heat stress, pollen viability, pollen exine biogenesis, Plant culture, SB1-1110

Abstract

Plants adapt to heat via thermotolerance pathways in which the activation of protein folding chaperones is essential. In eukaryotes, protein disulfide isomerases (PDIs) facilitate the folding of nascent and misfolded proteins in the secretory pathway by catalyzing the formation and isomerization of disulfide bonds and serving as molecular chaperones. In Arabidopsis, several members of the PDI family are upregulated in response to chemical inducers of the unfolded protein response (UPR), including both members of the non-classical PDI-M subfamily, PDI9 and PDI10. Unlike classical PDIs, which have two catalytic thioredoxin (TRX) domains separated by two non-catalytic TRX-fold domains, PDI-M isoforms are orthologs of mammalian P5/PDIA6 and possess two tandem catalytic domains. Here, PDI9 accumulation was found to be upregulated in pollen in response to heat stress. Histochemical staining of plants harboring the PDI9 and PDI10 promoters fused to the gusA gene indicated they were actively expressed in the anthers of flowers, specifically in the pollen and tapetum. Immunoelectron microscopy revealed that PDI9 localized to the endoplasmic reticulum in root and pollen cells. transfer DNA (T-DNA) insertional mutations in the PDI9 gene disrupted pollen viability and development in plants exposed to heat stress. In particular, the pollen grains of pdi9 mutants exhibited disruptions in the reticulated pattern of the exine and an increased adhesion of pollen grains. Pollen in the pdi10 single mutant did not display similar heat-associated defects, but pdi9 pdi10 double mutants (DMs) completely lost exine reticulation. Interestingly, overexpression of PDI9 partially led to heat-associated defects in the exine. We conclude that PDI9 plays an important role in pollen thermotolerance and exine biogenesis. Its role fits the mechanistic theory of proteostasis in which an ideal balance of PDI isoforms is required in the endoplasmic reticulum (ER) for normal exine formation in plants subjected to heat stress.

Published

2020

103. Pollen Amount and Viability in Mchare and Selected Wild (AA) Banana (Musa acuminata) Genotypes: Prospects for Breeding.

Author

Bayo, Stanley J., Massawe, Veronica, Ndakidemi, Patrick A., Venkataramana, Pavithravani, Mlaki, Anna, Mduma, Hassan, Jomanga, Kennedy, Swennen, Rony, and Brown, Allan

Subjects

*POLLEN viability, *BANANAS, *PLANTAIN banana, *POLLINATION, *MALE sterility in plants, *GENOTYPES, *FEMALE infertility, *POLLEN

Abstract

East African diploid cooking bananas, commonly called Mchare, are a staple crop for millions of subsistence farmers in Tanzania, particularly in the Pangani region in northern Tanzania. Several pathogens constrain Mchare production significantly and threaten food security. Sources of resistance to these pathogens have been identified; however, partial male and female sterility impedes successful resistance introgression, complicating the breeding process. Mchare cultivars are also the only known surviving representatives of a diploid banana subgroup that contributed unreduced gametes to many of the most widely grown and successful triploid dessert bananas (‘Cavendish’, ‘Gros-Michel’, ‘Silk’, and ‘Prata’). As such, they represent an essential intermediate step in the conventional improvement of bananas worldwide. We assess the amount and viability of pollen among Mchare and wild genotypes to identify the most fertile Mchare cultivars that can be used in conventional banana improvement. Pollen was collected from 14 banana genotypes for quantification and viability testing over 7 months, and the optimal time for pollen collection was determined to be 0800 HR. Significant variation among banana genotypes in terms of both overall pollen production and percentage of pollen viability was observed. The wild-type bananas ‘Calcutta 4’ (International Musa Germplasm Transit Center (ITC) 0249] and ‘Borneo’ (ITC0253) had the greatest overall pollen production (> 31,000 pollen grains/anther) and viability (~74%), whereas ‘Ijihu Inkundu’ (ITC1460; Mchare genotype) was the least productive (almost completely sterile), with an average pollen production of a few hundred grains per anther and a viability of 7%. There were significant differences among months in terms of pollen viability, with the greatest average viability observed in May, April, and February (> 51%), and the lowest average pollen viability in July (41%). Significant differences were observed among the Mchare genotypes, with ‘Huti-White’, ‘Huti green bell’ (ITC1559), and ‘Mchare Laini’ consistently producing more substantial amounts of total pollen and an overall more significant proportion of viable pollen. This information is vital to improve Mchare bananas and the global breeding of dessert bananas. The choice of Mchare banana used in improvement programs could affect fertility and the likelihood of breeding success. [ABSTRACT FROM AUTHOR]

Published

2024

104. Floral morphology and pollen viability of an endangered and endemic Bromeliaceae species from the Atlantic Forest.

Author

Santos, Valéria Leobina dos, Nievola, Catarina Carvalho, Fidalgo, Adriana de Oliveira, Kanashiro, Shoey, Wanderley, Maria das Graças Lapa, Gomes, Eduardo Pereira Cabral, and da Luz, Cynthia Fernandes Pinto

Subjects

*FLORAL morphology, *POLLEN viability, *BROMELIACEAE, *ENDANGERED species, *POLLINATORS, *POLLEN, *OVULES, *HISTOCHEMISTRY

Abstract

The present study describes the floral morphology and evaluates pollen viability for the bromeliad Nidularium minutum Mez. during the flowering period 2018‒2019 through histochemistry and pollen germination tests. The inflorescences are nidular, capituliform with short branches bearing two to three odourless, bisexual and greenish-white flowers and with an androecium shorter than the gynoecium, consisting of six stamens with anthers featuring rimose dehiscence. The ovules are anatropous, displaying a small appendage in the chalazal region. The first flower opened in late November 2018 and flowering peak was in January 2019. Anthesis started at 6:55 a.m. and lasted until 8:49 a.m. Pollen/ovule ratio indicates facultative autogamy. The pollen grains are monads, medium to large, 2-(3)-porate, reticulate heterobrochate with abundant pollenkitt. A high frequency of unviable pollen grains with discrepant sizes was observed. The mature pollen grain is considered recalcitrant and therefore sensitive to desiccation. In vitro pollen germination after 48 hours was higher in BKM medium (64.77%) compared to SM (38.51%). Pollen viability was overestimated in all histochemistry tests, with Alexander (72.46%) being the closest to the in vitro germination rate. The results obtained for N. minutum bring new information about its floral biology as a subsidy to the cultivation of ornamental bromeliads that are at risk of extinction. [ABSTRACT FROM AUTHOR]

Published

2021

105. Effect of low storage temperature on pollen viability of fifteen herbaceous peonies

Author

Du, Guangcong, Xu, Jinguang, Gao, Chengrong, Lu, Jie, Li, Qian, Du, Jie, Lv, Mengwen, and Sun, Xia

Published

2019

106. Quantitative methods in microscopy to assess pollen viability in different plant taxa

Author

Ascari, Lorenzo, Novara, Cristina, Dusio, Virginia, Oddi, Ludovica, and Siniscalco, Consolata

Published

2020

107. High Temperature and Humidity Affect Pollen Viability and Longevity in Olea europaea L.

Author

Maurizio Iovane, Aurora Cirillo, Luigi Gennaro Izzo, Claudio Di Vaio, and Giovanna Aronne

Subjects

climate change, germplasm, olive, pollen viability, pollen functionality, Agriculture

Abstract

Olea europaea L. is a crop typical of the Mediterranean area that has an important role in economy, society, and culture of this region. Climate change is expected to have significant impact on this crop, which is typically adapted to certain pedo-climatic characteristics of restricted geographic areas. In this scenario, the aim of this study was to evaluate the time-course response of pollen viability to different combinations of temperature and humidity. The study was performed comparing flowering time and pollen functionality of O. europaea from twelve cultivars growing at the same site belonging to the Campania olive collection in Italy. Pollen was incubated at 12 °C, 22 °C, and 36 °C in combination with 50% RH or 100% RH treatments for 5 days. The results highlighted that a drastic loss of pollen viability occurs when pollen is subjected to a combination of high humidity and high temperature, whereas 50% RH had less impact on pollen thermotolerance, because most cultivars preserved a high pollen viability over time. In the ongoing climate change scenario, it is critical to assess the effect of increasing temperatures on sensitive reproductive traits such as pollen viability to predict possible reduction in crop yield. Moreover, the results highlighted that the effect of temperature increase on pollen thermotolerance should be evaluated in combination with other environmental factors such as humidity conditions. The screening of olive cultivars based on pollen thermotolerance is critical in the ongoing climate change scenario, especially considering that the economic value of this species relies on successful fertilization and embryo development, and also that production cycle of Olea europaea can be longer than a hundred years.

Published

2021

108. Assessment on pollen carrying capacity and pollen viability of Elaeidobius kamerunicus (Coleoptera: Curculionidae)

Author

MN, Dzulhelmi, Razi, Ahmad Norhisham, Kalog, Nur-Shafiqah Farhana, Murdi, Ahmad Afandi, Su, Suriyanti, Hazmi, Izfa Riza, MN, Dzulhelmi, Razi, Ahmad Norhisham, Kalog, Nur-Shafiqah Farhana, Murdi, Ahmad Afandi, Su, Suriyanti, and Hazmi, Izfa Riza

Abstract

Oil palm, also known as Elaeis guineensis Jacq (Arecales: Arecaceae), depends greatly on the pollinating weevil Elaeidobius kamerunicus (Coleoptera: Curculionidae) for fruit production. Despite this, information on the pollen-carrying capacity of E. kamerunicus is still lacking. This study assessed the pollen-carrying capacity (PCC) and pollen viability (PV) of E. kamerunicus in two oil palm plantations with different soil types in Sabah, Malaysia. The pollination contribution of adult weevils to sex and body surface area (BSA) was also investigated. Adult weevils were collected from both male and female inflorescences and kept in microcentrifuge tubes containing pollen grain germination medium solutions to assess their pollination contribution. Results indicated a significant difference for BSA between sexes. Mann-Whitney test showed greater PCC for male weevils than female weevils for FELDA Sahabat and Long Danau from male inflorescence. PCC for female inflorescence showed no significant differences between male and female weevils for both oil palm plantations. PV showed no significant difference between sexes but differed significantly between oil palm plantations due to better soil quality in clay textured soil. Based on the results, pollination contribution by male adult weevils was greater than female adult weevils for both plantations.

Published

2022

109. Impact of Terminal Heat Stress on Pollen Viability and Yield Attributes of Rice Oryza sativa L.)

Author

Kumar, N., Kumar, Nitin, Shukla, A., Shankhdhar, S.C., and Shankhdhar, D.

Published

2015

110. Blooming Phenograms, Pollen Production, and Pollen Quality during Storage of Pistachio Cultivars in New Mediterranean Growing Areas.

Author

Lillo, Giuseppe, Calia, Claudio, Cice, Danilo, Petriccione, Milena, and Camposeo, Salvatore

Subjects

POLLEN viability, XYLELLA fastidiosa, INTRODUCED species, ANIMAL sexual behavior, HUMIDITY, PISTACHIO

Abstract

Pistachio (Pistacia vera L.) is a dioecious, anemophilous, and drought-resistant fruit tree species. It is cultivated in new Mediterranean areas, including the regions of southern Italy (Apulia and Basilicata). It has been estimated that over 40,000 ha are suitable for pistachio cultivation in areas infected by Xylella fastidiosa subsp. pauca. As a newly introduced species, knowledge of its biological reproductive behaviors in its new areas of spreading is essential for appropriate agronomic planning and management. This two-year study (2022 and 2023), carried out in the countryside of Stigliano (MT, Italy), had the objective of evaluating the flowering phenograms, pollen production, and assessing protocols for the conservation and extension of pollen viability, of the most widespread cultivars. A slight delay was observed in the blooming phenograms, compared to other cultivation Mediterranean areas, such as Spain or Sicily. Furthermore, the overlap between female and male phenograms was partial. No significant differences were observed in the polliniferous aptitude of the two male cultivars. Among the different protocols tested, the pollen storage at 33% relative humidity and a temperature of −80 °C maintained the pollen germinability above 50% for up to three weeks. These findings highlight the importance of controlled environmental conditions in preserving pollen viability over extended periods, providing valuable insights for agricultural and botanical research that relies on maintaining pollen viability for breeding and genetic studies. [ABSTRACT FROM AUTHOR]

Published

2024

111. Characterization of Male Flower Induction by Silver Thiosulfate Foliar Spray in Female Cannabis at the Middle Reproductive Stage for Breeding.

Author

Kim, Juyoung, Kim, Dong-Gun, Kim, Woon Ji, Lee, Ye-Jin, Lee, Seung Hyeon, Ryu, Jaihyunk, Kim, Jae Hoon, and Kim, Sang Hoon

Subjects

POLLEN viability, FLOWERING of plants, POLLEN, OVUM, PLANT breeding, POLLINATION, SELF-pollination

Abstract

Cannabis (Cannabis sativa) is a versatile crop belonging to the Cannabaceae family, and is dioecious, typically with separate male and female plants. The flowers of female plants, especially the trichomes, accumulate relatively higher contents of cannabinoids compared with those of male plants. For this reason, to obtain seeds that are genetically female, it is desirable to induce the development of male flowers on a female plant that produces genetically female haploid gametes. Silver thiosulfate (STS) is a highly effective chemical for male flower induction. We investigated male flower induction in three commercial cultivars of female cannabis (Spectrum303, SuperwomanS1, and CBGambit) regarding the treatment frequency, stage of application, and concentration of STS applied as a foliar spray. All three cultivars showed adequate induction of male flowers in response to 1.5 mM STS applied at the early reproductive stage. In particular, SuperwomanS1 was most highly responsive to induction of male flowers, even when treated with 0.3 mM STS at the early reproductive stage. Treatment with three applications of STS was more effective compared with a single application, but a single application of 1.5 mM STS at the early reproductive stage was sufficient for male flower induction. A single STS application during the middle stage of reproductive growth was inadequate for induction of male flowers. However, 6 weeks after three applications of STS, CBGambit exhibited approximately 54% male flower induction at 0.3 mM STS, Spectrum303 showed approximately 56% induction at 3 mM STS, and SuperwomanS1 yielded approximately 26% induction at 1.5 mM (expressed as percentage of total number of individuals with the induced male flowers). Pollen stainability tests using KI-I2 solution and Alexander's staining showed high pollen viability with over 65% at different single STS concentrations, indicating that pollen grains induced by STS have sufficient viability for the self-pollination. This study demonstrated that different cultivars of cannabis respond diversely to different STS concentrations and highlighted the potential benefits of three STS applications during the middle reproductive stage for cannabis breeding. [ABSTRACT FROM AUTHOR]

Published

2024

112. Pollen viability and stigma receptivity in Lilium during anthesis

Author

He, Guoren, Hu, Fengrong, Ming, Jun, Liu, Chun, and Yuan, Suxia

Published

2017

113. Physiological responses, growth and productivity of oil palm (Elaeis guineensis Jacq.) as affected by boron fertilization.

Author

Prasetiyanto, Lukas Priyo, Putra, Eka Tarwaca Susila, and Hanudin, Eko

Subjects

*LEAF area index, *POLLEN viability, *ORTHOGONAL polynomials, *FIELD research, *LEAF area

Abstract

Boron (B) is an essential micro nutrient that is needed by oil palms, especially to control productivity. The aim of this research was to determine the optimal dose of B for mature oil palms. The research was conducted at a smallholder oil palm plantation located in Katingan Region, Central Kalimantan Province from January to December 2022. The field experiment was a single factor arranged in a Randomized Complete Block Design (RCBD) with three blocks as replications. The factor tested was the dose of B fertilization, consisting of five doses, namely 0 g. trunk-1. semester-1 (control); 25 g. trunk-1. semester-1; 50 g. trunk-1. semester-1; 75 g. trunk-1. semester-1; and 100 g. trunk-1. semester-1. Observations were done on several variables of micro-weather characteristics at the research site, nutrient and physiological characteristics of leaf, morphological characters and plant growth, and yield and yield components of oil palms. The data obtained were then analyzed with analysis of variance (ANOVA) a=5 %, and data showing significant differences between treatments were tested with an orthogonal polynomial. The results showed that B had positive effects on leaf B, P and K concentration and absorption, leaf chlorophyll content, number of midribs, plant height, leaf area per trunk, leaf area index, crop dry weight, pollen fertility, fruit set, pollen viability, fresh fruit bunch weight (FFB) and FFB productivity. The optimal dose of B to optimize oil palms productivity was 60.24 g. trunk-1. semester-1 with a maximum value of FFB productivity of 6.94 tons. trunk-1. semester? [ABSTRACT FROM AUTHOR]

Published

2024

114. ICE1 interacts with IDD14 to transcriptionally activate QQS to increase pollen germination and viability.

Author

Luo, Landi, Zheng, Yan, Li, Xieshengyang, Chen, Qian, Yang, Danni, Gu, Zhijia, Yang, Ya, Yang, Yunqiang, Kong, Xiangxiang, and Yang, Yongping

Subjects

*TRANSCRIPTION factors, *POLLEN viability, *POLLEN, *LIPID metabolism, *BIOLOGICAL fitness, *ANTHER

Abstract

In flowering plants, sexual reproductive success depends on the production of viable pollen grains. However, the mechanisms by which QUA QUINE STARCH (QQS) regulates pollen development and how transcriptional activators facilitate the transcription of QQS in this process remain poorly understood. Here, we demonstrate that INDUCER OF CBF EXPRESSION 1 (ICE1), a basic helix–loop–helix (bHLH) transcription factor, acts as a key transcriptional activator and positively regulates QQS expression to increase pollen germination and viability in Arabidopsis thaliana by interacting with INDETERMINATE DOMAIN14 (IDD14). In our genetic and biochemical experiments, overexpression of ICE1 greatly promoted both the activation of QQS and high pollen viability mediated by QQS. IDD14 additively enhanced ICE1 function by promoting the binding of ICE1 to the QQS promoter. In addition, mutation of ICE1 significantly repressed QQS expression; the impaired function of QQS and the abnormal anther dehiscence jointly affected pollen development of the ice1‐2 mutant. Our results also showed that the enhancement of pollen activity by ICE1 depends on QQS. Furthermore, QQS interacted with CUT1, the key enzyme for long‐chain lipid biosynthesis. This interaction both promoted CUT1 activity and regulated pollen lipid metabolism, ultimately determining pollen hydration and fertility. Our results not only provide new insights into the key function of QQS in promoting pollen development by regulating pollen lipid metabolism, but also elucidate the mechanism that facilitates the transcription of QQS in this vital developmental process. [ABSTRACT FROM AUTHOR]

Published

2024

115. Optimization of in vitro pollen storage conditions in seeded and lowseeded citrus genotypes.

Author

Lamo, Kunzang, Sangwan, Anil Kumar, Singh, NavPrem, and Batth, ManveenKaur

Subjects

POLLEN viability, POLLEN, GENOTYPES, CITRUS, CALCIUM chloride

Abstract

An in vitro pollen storage study was conducted using pollen from three seeded citrus plant genotypes, viz., ‘Mexican lime’, ‘W’. Murcott’ and ‘Mosambi’ and five seedlesscitrus genotypes, viz., ‘Lisbon lemon’, ‘Jaffa’, ‘Clementine’, ‘Hamlin’ and ‘Mukaku Kishu’. Pollen viability and germination percentage were evaluated at different storage temperature treatments, i.e., at room temperature (in anhydrous calcium chloride) (control), in a refrigerator at 4°C, in a freezer (-20°C), and in a freeze drier (-80°C). The viability of the pollen plants was tested with an acetocarmine stain (2%). Among all the tested sucrose concentrations (0, 5, 10, 15, 20, and 25%) for in vitro pollen germination, the 15% sucrose concentration had the highest effect on pollen germination. The results showed significant differences in pollen viability and germination under different storage temperature conditions. The pooled data revealed that, among the seeded genotypes, W. Murcotts showed the maximum mean viability and germination percentage (67.86% and 60.88%, respectively) after 48 weeks of storage at -80°C, and the minimum values were observed for Mexican lime (46.57% and 33.71%, respectively). However, in the low-seeded genotype, Mukaku Kishu had the maximum mean pollen viability and germination (71.52% and 64.07%, respectively) after 48 weeks of storage at -80°C, and the lowest values were observed in Jaffa (39.36% and 28.08%, respectively). The results indicate that the freeze drier storage temperature (-80°C) had the greatest effect on retaining pollen viability and germination in both the seeded and low-seeded genotypes. However, a progressive decrease in pollen viability and germination rate was observed with increasing duration at all storage temperatures, reaching a minimum at 48 weeks after storage. However, the reduction in pollen storage ability was greatest at room temperature and 40°C. Pollen grains stored at low temperatures (-80°C and -20°C) showed good viability and germination percentage compared with those stored at room temperature and 4°C. [ABSTRACT FROM AUTHOR]

Published

2024

116. The ROS-associated programmed cell death causes the decline of pollen viability recovered from cryopreservation in Paeonia lactiflora

Author

Ren, Ruifen, Li, Zedi, Jiang, Xueru, and Liu, Yan

Published

2020

117. Effects of temperature on pollen viability and in vivo pollen tube growth in Citrus sinensis

Author

Senay Karabiyik

Subjects

Plant culture, SB1-1110, Botany, QK1-989

Abstract

Temperature is the major factor in global warming and strongly influences the success of plant sexual reproduction. Therefore, there isan urgent need to assess the vulnerability of species for breeding and planning effective actions. In this study, effects of different tempera-tures and storage duration on pollen viability and in vivo pollen tube growth were analysed in Citrus sinensis ‘Kozan yerlisi’. The pollenswere obtained before anthesis and stored at 10 °C, 20 °C and 30 °C for 1, 2 or 3 days before analysis.The pollen viability decreased with increasing temperatures and storage duration from 61.3% to 5.8%. In vivo pollen germination results showed that for one day storage, the pollen growth rates were similar to the control treatment while storing pollens two or three days differed from the control. Pollen germination after storage at 10 °C was lower and not efficient, while after storage at 30 °C no pollen tube germination at all was seen on the stigma. At the same time, storing pollen in low temperature caused delay in pollen tube germination and pollen tube growth, suggesting that pollen that are stored in low temperatures pass into a dormancy process for three to five days.In conclusion, this study indicated that pollen storage in 30 °C for a long time causes loss of pollination ability while storage in 10 °Ccauses dormancy in pollen.

Published

2022

118. High Temperature Tolerance in a Novel, High-Quality Phaseolus vulgaris Breeding Line Is Due to Maintenance of Pollen Viability and Successful Germination on the Stigma

Author

Teresa Rose, Claudia Lowe, Javier A. Miret, Hannah Walpole, Kirstie Halsey, Eudri Venter, Milan O. Urban, Hector Fabio Buendia, Smita Kurup, Donal Martin O’Sullivan, Steve Beebe, and Sigrid Heuer

Subjects

heat tolerance, common bean, pollen structure, Botany, QK1-989

Abstract

The common bean (Phaseolus vulgaris L.) is an important nutritional source globally but is sensitive to high temperatures and thus particularly vulnerable to climate change. Derived from a breeding program at CIAT (Colombia), a heat-tolerant breeding line, named heat-tolerant Andean-type 4 (HTA4), was developed by a series of crosses of parents with a small-bean tepary genotype (Phaseolus acutifolius L.) in their pedigree, which might be the donor of heat stress (HS) tolerance. Importantly, in HTA4, the large, commercially desirable Andean-type beans was restored. To assess underlying tolerance mechanisms, HTA4, together with a heat-sensitive Colombian variety (Calima), was exposed to HS (31 °C/24 °C HS vs. 26 °C/19 °C day/night) under controlled environment conditions. Vegetative growth and photosynthetic performance were not negatively impacted by HS in either genotype, although senescence was delayed in Calima. HS during the reproductive stage caused an increase in pod number in Calima but with few fully developed seeds and many pods aborted and/or abscised. In contrast, HTA4 maintained a similar filled pod number under HS and a higher seed weight per plant. Pollen showed high sterility in Calima, with many non-viable pollen grains (24.9% viability compared to 98.4% in control) with a thicker exine and fewer starch granules under HS. Calima pollen failed to adhere to the stigma and germinate under HS. In HTA4, pollen viability was significantly higher than in Calima (71.1% viability compared to 95.4% under control), and pollen successfully germinated and formed pollen tubes in the style under HS. It is concluded that HTA4 is heat tolerant and maintains a high level of reproductive output due to its ability to produce healthy pollen that is able to adhere to the stigma.

Published

2023

119. Impact of elevated CO2 and heat stress on wheat pollen viability and grain production.

Author

Bokshi, Anowarul I., Tan, Daniel K. Y., Thistlethwaite, Rebecca J., Trethowan, Richard, and Kunz, Karolin

Subjects

*POLLEN viability, *POLLEN, *WHEAT yields, *WHEAT, *WHEAT breeding, *HIGH throughput screening (Drug development)

Abstract

Periods of high temperature and an expected increase in atmospheric CO2 concentration as a result of global climate change are major threats to wheat (Triticum aestivum L.) production. Developing heat-tolerant wheat cultivars demands improved understanding of the impacts of high temperature and elevated CO2 on plant growth and development. This research investigated the interactive effects of heat stress and CO2 concentration on pollen viability and its relationship to grain formation and yield of wheat in greenhouse conditions. Nineteen wheat genotypes and a current cultivar, Suntop, were heat stressed at either meiosis or anthesis at ambient (400 µL L–1) or elevated (800 µL L–1) CO2. Elevated CO2 and heat stress at meiosis reduced pollen viability, spikelet number and grain yield per spike; however, increased tillering at the elevated CO2 level helped to minimise yield loss. Both heat-tolerant genotypes (e.g. genotype 1, 2, 10 or 12) and heat-sensitive genotypes (e.g. genotype 6 or 9) were identified and response related to pollen sensitivity and subsequent impacts on grain yield and yield components were characterised. A high-throughput protocol for screening wheat for heat stress response at elevated CO2 was established and meiosis was the most sensitive stage, affecting pollen viability, grain formation and yield. Changing climate poses a threat to Australian wheat (Triticum aestivum L.) production. Hence, there is a priority for breeding heat-tolerant wheat varieties. In this study, several heat-tolerant wheat genotypes were grown in simulated warmer climate and elevated CO2 and analysed for pollen viability, grain formation and yield. We established a protocol where pollen viability is an important trait for screening heat-tolerant wheat progenies for sustainable wheat yield at projected climate change conditions. [ABSTRACT FROM AUTHOR]

Published

2021

120. Does size matter? : A study on pollen size distribution and pollen viability in Silene latifolia and S. dioica

Author

Örjes, Elliot and Örjes, Elliot

Abstract

Pollen size dimorphism, i.e., when a plant produces more than one size of pollen, has been observed in several plant families but the underlying mechanisms have rarely been discussed. One of the hypotheses is that the smaller pollen produced by individuals with bimodal pollen size distributions are dead or non-viable. In this thesis, I use the campions Silene latifolia and S. dioica to study pollen dimorphism and pollen viability. To study the pollen dimorphism, pollen was collected from eight S. latifolia populations grown in a greenhouse and three wild S. dioica populations. The S. latifolia populations originated from France, Great Britain, Germany, Poland, Switzerland, Russia, Belgium and Romania while the S. dioica populations all came from around Uppsala. The pollen from each individual was analysed under a microscope to determine if the individual produced uni-/bimodal pollen. To test pollen viability, an in vitro germination experiment was conducted, using pollen tube length as a proxy for viability. Individuals with bimodal pollen size distributions were found in almost all populations of both species with frequencies ranging between 10 - 66%. Among the individuals with unimodal pollen size distributions, it was more common to produce larger pollen but, in some populations, there were unimodal individuals producing small pollen. The presence of individuals with different unimodal pollen size distributions as well as with bimodal pollen size distributions in the same population suggests that pollen size dimorphism might be governed by segregating alleles at one or several loci, contradicting earlier studies suggesting meiotic drive. In the viability test, the smaller pollen grew a longer tube and thus might have a higher pollen tube growth rate (PTGR) than the larger pollen. This, together with other studies showing that a high PTGR correlates with high siring success, indicates that small pollen might be highly viable. The smaller pollen may have higher pol

Published

2021

121. Phalaenopsis pollinia storage at sub-zero temperature and its pollen viability assessment

Author

Shih-Chang Yuan, Shih-Wen Chin, Chen-Yu Lee, and Fure-Chyi Chen

Subjects

Low temperature storage, Pollen viability, In vitro germination, Hand pollination, Botany, QK1-989

Abstract

Abstract Background In a breeding program, usually only superior parents are chosen for cross hybridization. Pollens of elite cultivars may not be available at hand. Properly stored pollens provide an opportunity for cross hybridization at unavailable time. Results Pollen of a Phalaenopsis hybrid was evaluated for the storage ability at different temperatures, including room temperature, 4, − 20, and − 80 °C for up to 96 weeks. The viability of pollen was assessed by TTC staining, in vitro germination and hand pollination during and after storage. Pollen stored at all temperatures for 4 weeks remained viable and capable of successful pollination. Pollen lost its viability after 4 weeks at room temperature. Pollen remains viable after 40 weeks at 4 °C, and after 96 weeks at both − 20 and − 80 °C of storage. Viable pollen could be successfully pollinated to the female parent at all effective storage conditions and produced seeds. Conclusions Our results indicate that Phalaenopsis pollen can be stored at 4 °C up to 40 weeks for short-term purpose. For long-term storage, pollen can be kept at both − 20 and −80 °C.

Published

2018

122. Henan University of Chinese Medicine Researchers Release New Data on Enzymes and Coenzymes [Biological characteristics of flowers and examination of pollen viability at different developmental stages of Epimedium sagittatum (Sieb. et Zucc.) ...]

Subjects

Medicine, Oriental, Enzymes, Biological sciences, Health

Abstract

2024 AUG 27 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Fresh data on enzymes and coenzymes are presented in a new report. According to [...]

Published

2024

123. Researcher from Makerere University Reports Recent Findings in Plant Research (Assessment of Cassava Pollen Viability and Ovule Fertilizability under Red-Light, 6-Benzyl Adenine, and Silver Thiosulphate Treatments)

Subjects

Flowers -- Research -- Analysis, Cytokinins -- Research -- Analysis, Agricultural chemicals -- Analysis -- Research, Purines -- Research -- Analysis

Abstract

2024 AUG 6 (NewsRx) -- By a News Reporter-Staff News Editor at Life Science Weekly -- Researchers detail new data in plant research. According to news originating from Makerere University […]

Published

2024

124. Studies from Shanxi Agricultural University Provide New Data on Industrial Crops and Products (Characterization of Gpat Gene Family In Euphorbia Lathyris L. and Elucidating the Role of Elgpat9 In the Biosynthesis of Oils and Pollen Viability)

Subjects

Agricultural industry -- Reports -- Physiological aspects, Monounsaturated fatty acids -- Physiological aspects -- Reports -- Genetic aspects, Biosynthesis -- Reports -- Genetic aspects -- Physiological aspects, Biotechnology industry, Pharmaceuticals and cosmetics industries

Abstract

2024 JUL 3 (NewsRx) -- By a News Reporter-Staff News Editor at Biotech Week -- Investigators publish new report on Agriculture - Industrial Crops and Products. According to news reporting [...]

Published

2024

125. Influence of Gamma Irradiation on Pollen Viability, Pollen Tube Growth, and Fruit Development in Tomato (Solanum lycopersicum L.)

Author

Kantoğlu, Kadriye Yaprak, primary

Published

2024

126. Impact of γ ray Exposure on In vitro Pollen Viability and Seed Development Pattern in Different Interspecific Crosses of Citrus

Author

Kundu, Manoj and Dubey, Anil

Abstract

Present work aimed to study the in vitro pollen viability and germinability of gamma ray irradiated pollens of Citrus limettaand C. sinensis. At highest irradiation dose (400 Gy), the rate of reduction of pollen viability and in vitro germination over respective control was recorded minimum in C. limetta(8.58 and 28.00%, respectively) as compared to C. sinensis. Maximum pollen tube length (263.67 µm) at 24 h after incubation was measured in C. sinensis, however, at 48 and 72 h after incubation, it was recorded maximum in C. limetta(299.69 and 322.25 µm, respectively). While using this irradiated pollen for controlled pollination of C. grandis, no mature fruit was retained on the tree in either cross combinations when pollen grains were treated with 400 Gy. Among the harvested fruits, number of normal seeds per fruit was reduced gradually with the increasing concentration of irradiation doses and less than three normal seeds were obtained per fruit in either cross combinations with 300 Gy irradiation doses. Our experiment revealed that controlled pollination of C. grandiswith irradiated pollen (300 Gy) of C. limettaand C. sinensisis is an effective tool for induction of seedlessness in C. grandis. However, for haploid breeding programme in Citrus, C. limettacan be employed as more reliable pollen parent as compared to C. sinensis.

Published

2024

127. Pollen viability of Euro‐Mediterranean orchids under different storage conditions: The possible effects of climate change.

Author

Pellegrino, G., Mahmoudi, M., Palermo, A. M., and Dafni, A.

Subjects

*POLLEN viability, *CLIMATE change, *ECOLOGY, *POLLEN tube, *FRUIT seeds, *ORCHIDS

Abstract

The future impact of climate change and a warmer world is a matter of great concern. We therefore aimed to evaluate the effects of temperature on pollen viability and fruit set of Mediterranean orchids.The in vitro and controlled pollination experiments were performed to evaluate the ability of pollinia stored at lower and higher temperatures to germinate and produce fruits and seeds containing viable embryos.In all of the examined orchids, pollen stored at −20 °C remained fully viable for up to 3 years, reducing its percentage germination from year 4 onwards. Pollinia stored at higher temperatures had a drastic reduction in vitality after 2 days at 41–44 °C, while pollinia stored at 47–50 °C did not show any pollen tube growth.The different levels of pollen viability duration among the examined orchids can be related to their peculiar reproductive biology and pollination ecology. The germinability of pollinia stored at lower temperatures for long periods suggests that orchid pollinia can be conserved ex situ. In contrast, higher temperatures can have harmful effects on the vitality of pollen and consequently on reproductive success of the plants. To our knowledge, this is the first report demonstrating the effects of global change on orchid pollen, and on pollen ability to tolerate, or not, higher air temperatures. Although vegetative reproduction allows orchids to survive a few consecutive warm years, higher temperatures for several consecutive years can have dramatic effects on reproductive success of orchids. [ABSTRACT FROM AUTHOR]

Published

2021

128. Pollen viability and endophytic yeast species of Cistus creticus and C. monspeliensis.

Author

Zampino, Daniela, Duro, Anna, Sciandrello, Saverio, Parafati, Lucia, and Restuccia, Cristina

Subjects

*POLLEN viability, *POLLEN, *ARID soils, *SOIL temperature, *SPECIES

Abstract

Cistus species are widespread in the Mediterranean basin, especially in places characterized by high temperatures and arid soils. Despite a rich literature concerning the biological and pharmacological properties of Cistus species, to our knowledge, there are only few reports on pollen viability and little is known about microbial endophytes within pollen grains. Pollen viability and germination of Cistus creticus L. and C. monspeliensis L., from two sites of Sicily (Italy) over two years (2016-2017), were determined by 2,3,5 triphenyl-tetrazolium chloride (TTC) staining and an in vitro germination test. Dominant microorganisms, flowing from pollen openings (colpora), were identified by molecular methods. Furthermore, for comparison, in 2017 microbial endophytes of C. eriocephalus Viv. from Serra S. Bruno (Calabria, Italy) were studied. The optimal medium composition for rapid in vitro germination was determined. Pollen viability was in the range of 79.8-90.0% for C. monspeliensis and 86.6-91.6% for C. creticus, while germination was 56.5-62.4% for C. monspeliensis and 50.1-58.8 for C. creticus. Statistical analysis by correlation coefficient showed a significant relationship between viability and germination, whereas significant differences (P < 0.05) were observed between TTC staining and the in vitro germination test. Yeasts were the dominant microorganisms in all pollen samples and dominant species were identified. [ABSTRACT FROM AUTHOR]

Published

2021

129. Reproductive biology, phenology, pollen viability and germinability in Kersting's groundnut (Macrotyloma geocarpum (Harms) Maréchal & Baudet, Fabaceae).

Author

Kafoutchoni, Konoutan Médard, Agoyi, Eric Etchikinto, Dassou, Gbèwonmèdéa Hospice, Sossou, Hospice Samson, Ayi, Sergino, Ahanhanzo Glèlè, Corneille, Adomou, Aristide Cossi, Yédomonhan, Hounnankpon, Agbangla, Clément, and Assogbadjo, Achille Ephrem

Subjects

*POLLEN viability, *POLLEN tube, *BIOLOGY, *LEGUMES, *GENITALIA

Abstract

• Kersting's groundnut flowers are bisexual and incompletely protogynous. • The flowers are of 'pre-anthesis cleistogamous' type. • Spontaneous self-pollination occurs in the flower, facilitated by style bending. • Emasculation may be done on one-day buds to prevent unwanted self-pollination. Knowledge gap on the reproductive biology of orphan crops is a major challenge to their cultivar development and genetic improvement. This study described the reproductive organs and phenology, assessed receptivity of stigma versus anther dehiscence, and examined pollen viability and germination in Kersting's groundnut. Experiments were conducted on nine morphotypes in a randomized complete block design with three replications in a screenhouse. Phenological observations were made on 1026 flower buds. Anther dehiscence was determined through microscopic observations while receptivity of the stigma was assessed using the hydrogen peroxide test. Pollen viability was assayed using histochemical staining. In vitro germination and pollen tube growth were assessed for up to 72h. Flowers were bisexual and incompletely protogynous, and spontaneous self-pollination was favoured by style bending. Flowering and fruiting were classified into six developmental stages each. Timing of all stages differed significantly (P<0.001) among morphotypes. The stigma was receptive 1-2 days before anther dehiscence and remained so until each flower wilted. Anthesis started 3 days from young bud appearance and lasted between 2–4 days depending on the morphotype. Pollen viability rates were very high (88–98%) and differed among morphotypes (P< 0.001). Pollen germination rates were low (8–37%) and varied among morphotypes and anthesis stages (P <0.05). Pollen tube growth varied significantly among morphotypes, anthesis stages and incubation time. The morphotype ZHLA-2 exhibited the highest reproductive vigour and could be recommended as pollen donor for hybridization. The study provides information on the best time and stage for emasculation and is expected to help breeders optimise a hybridisation protocol. [ABSTRACT FROM AUTHOR]

Published

2021

130. Cytogenetic Study and Pollen Viability of Phalaenopsis Queen Beer ‘Mantefon’

Author

Samantha Serafin Sevilleno, Hye Ryun An, Raisa Aone M. Cabahug-Braza, Yun-Jae Ahn, and Yoon-Jung Hwang

Subjects

cytogenetics, FISH, micronucleus, orchid, pollen staining, sporads, Botany, QK1-989

Abstract

Intergeneric and interspecific hybridization has been employed for the breeding of Phalaenopsis to transfer desirable traits between species, producing novel phenotypes with improved size, color, form, and flower-bearing ability. These characteristics are often enhanced; however, many of these hybrids are triploids and have reduced or complete sterility, for example, Phalaenopsis Queen Beer ‘Mantefon’, an important novelty-type cultivar in Asia, particularly in China, Japan, and Republic of Korea. Despite the increasing demand for the crop for ornamental purposes, little is known about its cytogenetics, which is essential for breeding and, consequently, crop improvement. In this study, karyotyping using fluorescence in situ hybridization, meiotic chromosome behavior analysis, pollen staining, and in vitro viability germination tests were performed to understand the cause of hybrid sterility and pollen abnormality in Phalaenopsis Queen Beer ‘Mantefon’ from a cytogenetic perspective. Viability tests revealed pollen infertility at all flower developmental stages, confirmed by the absence of pollen tube growth. Aberrant chromosomal behavior was observed in pollen mother cells (PMCs), frequently forming univalents, chromosomal bridges, and laggards during the entire meiotic process. PMCs were also divided irregularly into sporads with varying numbers of micronuclei, which may be responsible for pollen sterility in this cultivar. Altogether, the cytogenetic analyses provided insights into the pollen development of Phalaenopsis Queen Beer ‘Mantefon’ and the conceivable causes of its infertility.

Published

2023

131. An insight toward viability and in Vitro Germination of Salacca wallichiana and Salacca zalacca ‘Sumalee’ pollens and their ability to promote fruit set and fruit characteristics

Author

Nuanjunkong, Nilubol and Meesawat, Upatham

Published

2024

132. Pollen viability and in vitro germination of six pistachio (Pistacia vera L.) cultivars grown in northern Jordan

Author

Abdallah M. Aldahadha, Khaldoun Al Sane, Ahmed Bataineh, Asem Abu Alloush, and Zayed Hammouri

Subjects

in vitro germination, Jordan, pistachio, pollen storage, pollen viability, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

This study was conducted on six pistachio cultivars (Lazaourdi, Nab-El Jamal, Boundiki, Batouri, Marawhi and Aschouri) to investigate the percentage of pollen viability and in vitro pollen germination under stored and non-stored (fresh) conditions. The results indicated that there was a significant interaction between pollen viability of pistachio cultivars and storage period. This study showed that the non-stored (fresh) pollen of cultivars Batouri and Lazaourdi had significantly the highest viability (87%) and in vitro pollen germination (69.7%), respectively; indicating that such cultivars could be used as best pollinators. On the other hand, cultivar Nab-El Jamal had the lowest viability (43.7%) and in vitro pollen germination (40.3%). It was found that pollen viability for all stored pollen cultivars were significantly reduced by 30% when compared with non-stored (fresh) pollen. However, stored pollen germination for one month was zero for all pistachio cultivars. In addition, the results of viability for all fresh pollen cultivars were poorly linearly correlated (r2=0.149) with the results of in vitro germination of fresh pollen. Further research is required to examine both pollen viability and in vitro pollen germination under different short and long-term storage periods and methods.

Published

2019

133. Generation of reactive oxygen species during cryopreservation may improve Lilium × siberia pollen viability

Author

Xu, Jin, Liu, Qian, Jia, Mengxue, Liu, Yan, Li, Bingling, and Shi, Yin

Published

2014

134. Studies on pollen viability in Jasminum spp.

Author

PAVITHRA S, DHANANJAYA M V, SUJATHA A NAIR, RAJIV KUMAR, YOGEESHA H S, MUNIKRISHNAPPA P M, DEVAPPA V, HALESH G K, and KALAIYARASI A

Subjects

In vitro, Jasminum, Pollen viability, Pollen germination, Agriculture

Abstract

In vitro studies on pollen viability of six jasmine species, viz. Jasminum sambac, J. auriculatum, J. grandiflorum, J. multiflorum, J. flexile and J. malabaricum, was conducted at ICAR-Indian Institute of Horticultural Research, Hesaraghatta Lake Post, Bengaluru during 2016-17. Results revealed that species Jasminum malabaricum recorded highest pollen viability (96.57%) as well as pollen germination (91.58%) followed by J. flexile (84.92% and 81.86%, respectively) and J. auriculatum (71.32% and 71.08%, respectively) under in vitro condition. The species J. sambac significantly recorded lowest pollen viability (34.27%) and germination (34.09%). Significantly highest normal shaped pollen grains were observed in J. auriculatum (96.92%) which was at par with J. malabaricum (96.89%) and J. grandiflorum (93.63%). Modified BK germination medium containing 100 ppm H3BO3 + 300 ppm Ca(No3)2 + 200 ppm MgSO4) with 10% sucrose + 15% PEG 4000 solution was found optimal for highest in vitro germination in J. malabaricum (91.58%). However, maximum length of pollen tube was recorded in J. flexile (1170.68 μm) followed by J. malabaricum (951.11 μm). The viable pollen diameter of different species ranged from 38.25 μm (J. auriculatum) to 46.53 μm (J. malabaricum). Pollen grains collected during evening (05:00 pm to 06:00 pm) at the time of anthesis showed best results. Pollen tubes revealed abnormalities such as bulging and coiling of tips in J. sambac and J. grandiflorum. This might be one of the reasons for no fruit set when J. sambac used as pollen parent. From this in vitro pollen germination study, species J. malabaricum, J. flexile and J. auriculatum were identified as most suitable male parents compared to other species.

Published

2018

135. Effect of cryopreservation on pollen viability, fertility and morphology of different Psidium species.

Author

Vishwakarma, Pradeep Kumar, Vincent, Linta, Vasugi, C., and Rajasekharan, P.E.

Subjects

*POLLEN viability, *POLLINATION, *GERMINATION, *FRUIT seeds, *MORPHOLOGY, *POLLEN, *PLANT fertility, *SPECIES

Abstract

Cryopreservation of pollen is a complementary conservation strategy and can be used for conserve the diversity in the genus Psidium. The present study aims to cryopreserve the pollen of Psidium species to overcome asynchronous flowering. The pollen of different Psidium species were germinated in vitro in an optimized medium of germination. In vitro / in vivo pollen viability assessment and SEM analysis were carried out to determine the changes after cryopreservation. The in vitro pollen viability was determined at monthly intervals starting from fresh pollen until six months of cryopreservation. The in vivo fertility tests were carried out by pollination using both fresh and cryopreserved pollen. The cryopreserved pollen showed in vitro germination ranging from 1.78% (in P. molle) to 81.67% (in "H 12–5") compared to fresh pollen (2.16% in P. molle to 86.08% in P. guineense). In vivo fertility was tested by controlled pollination using six-month-old cryopreserved pollen and it resulted in fruit setting ranged between 3.33% (P. cattleianum var. cattleianum) and 27.66% (P. chinensis) as compared to fresh pollen between 4.0% (P. cattleianum var. cattleianum) and 30.66% (P. chinensis). Seed set and germination was also recorded in all the crosses attempted using cryopreserved pollen. These in vitro and in vivo results indicated that cryopreservation is an effective technique for breeding and conserving the haploid gene pool in cryo genebank. Scanning Electron Microscopic studies of pollen revealed no significant variation in shape and size after cryopreservation when compared to fresh pollen. • Method of collection and optimum pollen germination media for different Psidium species were standardized. • Cryopreservation of pollen of wild Psidium species were carried to overcome asynchronous flowering and used for wide hybridization resulted in fruit and seed set. • Pollen morphology assessment of fresh and cryopreserved pollen in guava genotypes and wild Psidium species using SEM. • A pollen cryobank established for Psidium genotypes. [ABSTRACT FROM AUTHOR]

Published

2021

136. Identification of heat-tolerant mungbean genotypes through morpho-physiological evaluation and key gene expression analysis.

Author

Bhardwaj, Ragini, Gayacharan, Gawade, Bharat H., Pathania, Pooja, Talukdar, Akshay, Kumar, Prakash, Khan, Suphiya, and Singh, Gyanendra Pratap

Subjects

MUNG bean, GENE expression, POLLEN viability, HEATING control, ATMOSPHERIC temperature

Abstract

Mungbean plays a significant role in global food and nutritional security. However, the recent drastic rise in atmospheric temperature has posed an imminent threat to mungbean cultivation. Therefore, this study investigates the growth and physiological changes of 87 mungbean germplasm lines under heat stress. Genotypes were examined using parameters including leaf area, chlorophyll content, membrane stability index (MSI), stomatal conductance, pollen viability, number of pods per cluster, number of pods per plant, number of seeds/pod, 100-seed weight and grain yield/plant under heat stress and control environments. A wide range of variation was observed for these traits among genotypes under heat stress and control environments. Genotypes were also identified with variable responses under both environments. The phenotypic expression of selected promising accessions was also validated in control environment conditions at the National Phytotron facility. The selected promising genotypes viz., IC76475, IC418452 and IC489062 validated their heat tolerance behavior for key candidate genes revealed by quantitative realtime PCR (qRT-PCR). These mungbean genotypes can act as potential resources in the mungbean improvement programs for heat stress tolerance. This study also provides a comprehensive understanding of the key mechanisms underlying heat tolerance in mungbean. [ABSTRACT FROM AUTHOR]

Published

2024

137. Light promoted brown staining of protoplasm by Ag+ is ideal to test wheat pollen viability rapidly.

Author

Biswas, Abhishek, Divya, Subramaniyan, Sharmila, Peddisetty, and Pardha-Saradhi, Peddisetty

Subjects

*POLLEN viability, *SILVER nanoparticles, *PROTOPLASM, *WHEAT breeding, *WHEAT, *SURFACE plasmon resonance

Abstract

Pollen viability is crucial for wheat breeding programs. The unique potential of the protoplasm of live cells to turn brown due to the synthesis of silver nanoparticles (AgNPs) through rapid photoreduction of Ag+, was exploited for testing wheat pollen viability. Ag+-viability test medium (consisting of 0.5 mM AgNO3 and 300 mM KNO3) incubated with wheat pollen turned brown within 2 min under intense light (~600 μmol photon flux density m-2s-1), but not in dark. The brown medium displayed AgNPs-specific surface plasmon resonance band in its absorption spectrum. Light microscopic studies showed the presence of uniformly stained brown protoplasm in viable pollen incubated with Ag+-viability medium in the presence of light. Investigations with transmission electron microscope coupled with energy dispersive X-ray established the presence of distinct 5–35 nm NPs composed of Ag. Powder X-ray diffraction analysis revealed that AgNPs were crystalline and biphasic composed of Ag0 and Ag2O. Conversely, non-viable pollen and heat-killed pollen did not turn brown on incubation with Ag+-medium in light. We believe that the viable wheat pollen turn brown rapidly by bio-transforming Ag+ to AgNPs through photoreduction. Our findings furnish a novel simplest and rapid method for testing wheat pollen viability. [ABSTRACT FROM AUTHOR]

Published

2020

138. CAND1 is required for pollen viability in Arabidopsis thaliana—a test of the adaptive exchange hypothesis

Author

Lihong Li, Melaku Garsamo, Jing Yuan, Xiaojin Wang, Susan H. Lam, Kranthi Varala, Leonor C. Boavida, Yun Zhou, and Xing Liu

Subjects

reproductive development and death, adaptive response, Ubiquitin ligase (E3), CAND1, Arabidopsis, Male gametophyte, Plant culture, SB1-1110

Abstract

The dynamic assembly of SKP1•CUL1•F-box protein (SCF) ubiquitin ligases is important for protein ubiquitination and degradation. This process is enabled by CAND1, which exchanges F-box proteins associated with the common CUL1 scaffold, and thereby, recycles the limited CUL1 core and allows diverse F-box proteins to assemble active SCFs. Previous human cell biological and computational studies have led to the adaptive exchange hypothesis, which suggests that the CAND1-mediated exchange confers plasticity on the SCF system, allowing cells to tolerate large variations in F-box protein expression. Here, we tested this hypothesis using Arabidopsis thaliana, a multicellular organism expressing hundreds of F-box protein genes at variable levels in different tissues. The cand1 null mutant in Arabidopsis is viable but produce almost no seeds. Bioinformatic, cell biological, and developmental analyses revealed that the low fertility in the cand1 mutant is associated with cell death in pollen, where the net expression of F-box protein genes is significantly higher than any other Arabidopsis tissue. In addition, we show that the transmission efficiency of the cand1 null allele was reduced through the male but not the female gametophyte. Our results suggest that CAND1 activity is essential in cells or tissues expressing high levels of F-box proteins. This finding is consistent with the proposed adaptive exchange hypothesis, demonstrating the necessity of the evolutionarily conserved CAND1-mediated exchange system in the development of a multicellular organism.

Published

2022

139. Discovery of natural Paspalum L. (Poaceae) triploid hybrids near sympatric populations of Paspalum urvillei Steud. and species of Paniculata group in northeastern Argentina.

Author

Ziegler, Carla, Martínez, Eric J., Honfi, Ana I., and Reutemann, A. Verena

Subjects

*SPECIES hybridization, *POLLEN viability, *BOTANICAL specimens, *SPECIES, *SEED industry

Abstract

Hybridization and polyploidy are currently known as exponential factors for biodiversity. Some Paspalum species can hybridize and originate viable allopolyploids with possible agronomic use. We collected a frost resistance hybrid in north–western Misiones and determined its ploidy level, meiotic behavior, pollen viability, cytoembryology, and seed production in open and self-pollination. To elucidate its origin, we conducted a phenotypic and geographical analysis using herbarium specimens to establish its putative parental species. The hybrid was triploid, exhibiting irregular meiosis with the formation of non-viable pollen and undeveloped embryo sacs, resulting in very low seed production under both pollination conditions. Through morphological analysis, we identified Paspalum urvillei Steud. and the Paniculata group, i.e. Paspalum juergensii Hack., Paspalum umbrosum Trin., and Paspalum paniculatum L., as the putative parental species. Geographic distribution patterns suggested a possible hybridization event between P. urvillei and P. umbrosum, though further investigation is needed to precisely identify which species from the Paniculata group hybridized with P. urvillei. Future studies will help to unravel the complex genetic interactions underlying hybridization in Paspalum species and contribute to our understanding of biodiversity dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

140. Viability and storage of Myrceugenia euosma (O. Berg) D. Legrand and Siphoneugena reitzii D. Legrand (Myrtaceae) pollen.

Author

Schramm Corrêa, Bruno Jan, Schatz Sá, Alexandra Cristina, Magda de Oliveira, Luciana, Mantovani, Adelar, and da Costa Bortoluzzi, Roseli Lopes

Subjects

*POLLEN viability, *COLORIMETRIC analysis, *TETRAZOLIUM chloride, *ORNAMENTAL trees, *INDUSTRIAL capacity

Abstract

This study evaluated aspects of the pollen viability of the species Myrceugenia euosma (O. Berg) D. Legrand and Siphoneugena reitzii D. Legrand (Myrtaceae), both native trees with ornamental, medicinal and industrial potential. The study used different concentrations of sucrose to determine pollen viability in vitro and through colorimetric tests with specific dyes (Lugol, carmine acetic, and tetrazolium chloride – TTC – 0.1 and 0.05%). The two species also had their pollen stored for 30 and 90 days in freezers, refrigerators, and natural environments to check the best method for preserving their viability. The results showed that the highest average germination of M. euosma pollen was in a culture medium containing 30% sucrose. After 30 and 90 days of storage, pollen viability was significantly reduced, having preserved part of its potential only in the freezer. The pollen of S. reitzii had a higher average germination rate in a medium with 20% sucrose, but also showed a reduction in viability after 30 and 90 days of storage. The colorimetric tests showed that the pollen of both species responded to the dyes. However, the viability of Lugol and carmine acetic was considered to be overestimated in relation to the in vitro germination tests. Tetrazolium at 0.1% proved to be an alternative for checking the viability of S. reitzii pollen. It can be concluded that different concentrations of sucrose affect germination, and that storing pollen at a low temperature can preserve some of its viability in the short term. [ABSTRACT FROM AUTHOR]

Published

2024

141. Compatibility barriers affecting crossability of Solanum aethiopicum and its relatives.

Author

Namutosi, Winnie, Bulyaba, Rosemary, Nakanwagi, Mildred Julian, Buteme, Ruth, Sseremba, Godfrey, and Kizito, Elizabeth Balyejusa

Subjects

*POLLINATION, *POLLEN viability, *FRUIT seeds, *BLOCK designs, *CULTIVARS, *GENOTYPES, *SOLANUM

Abstract

Reproductive barriers are the single largest impediment in breeding of Solanum aethiopicum (Shum and Gilo cultivars). Knowledge of these barriers is important for prudent germplasm utilization and genetic improvement of the species. This study investigated compatibility barriers between S. aethiopicum and its relatives. A randomized complete block design and a full diallel mating method were used to evaluate crossability and floral traits of six genotypes of four different species (S. aethiopicum, S. macrocarpon, S. anguivi and S. incanum) across two seasons. Parameters assessed were petal opening time, stigma receptivity, anther dehiscence, pollen quantity, pollen viability and crossing success. Most flowers for all parental genotypes were opened by 08:00 am. Mean number of open flowers was higher (12 ± 6) for S. aethiopicum Shum (N11) and lowest (n = 3 ± 1) for S. macrocarpon (E12; (p < 0.001), with other genotypes being intermediate. Stigma receptivity differed (p < 0.001) among genotypes and seasons and was highest for N11 at 3.31 ± 1.32 and lowest for S. incanum (In1) at 2.24 ± 1.27; other genotypes were intermediate. All genotypes possessed high pollen viability (µ > 80%) though species differed (p < 0.01). All genotypes exhibited self-compatibility to varying degrees with N11 showing the highest fruit success (67.9 ± 15.6%), seeds per fruit (82 ± 51), and F1 germination rate (79 ± 18%). Interspecific crosses using S. macrocarpon, S. anguivi and S. incanum as females showed poor or no fruit and seed. N11 (S. aethiopicum Shum) was the top performer as a female; crosses with S. macrocarpon (N11xE12) showed highest fruit success (65.9 ± 26.5), with S. anguivi (N11xA1) showing the highest seed set (n = 56 ± 34) and S. incanum (N11xIN1) showing the highest F1 germination (64 ± 19). The F1 intraspecific cross between S. aethiopicum Shum (N4) and S. aethiopicum Gilo (G4) did not germinate. Female parent functioning may be a key feature for the failure of interspecific crosses where S. aethiopicum is a donor as observed by the unilateral incompatibility. [ABSTRACT FROM AUTHOR]

Published

2024

142. High Temperature Tolerance in a Novel, High-Quality Phaseolus vulgaris Breeding Line Is Due to Maintenance of Pollen Viability and Successful Germination on the Stigma.

Author

Rose, Teresa, Lowe, Claudia, Miret, Javier A., Walpole, Hannah, Halsey, Kirstie, Venter, Eudri, Urban, Milan O., Buendia, Hector Fabio, Kurup, Smita, O'Sullivan, Donal Martin, Beebe, Steve, and Heuer, Sigrid

Subjects

COMMON bean, POLLEN viability, POLLINATION, HIGH temperatures, SOCIAL stigma, POLLEN, POLLEN tube

Abstract

The common bean (Phaseolus vulgaris L.) is an important nutritional source globally but is sensitive to high temperatures and thus particularly vulnerable to climate change. Derived from a breeding program at CIAT (Colombia), a heat-tolerant breeding line, named heat-tolerant Andean-type 4 (HTA4), was developed by a series of crosses of parents with a small-bean tepary genotype (Phaseolus acutifolius L.) in their pedigree, which might be the donor of heat stress (HS) tolerance. Importantly, in HTA4, the large, commercially desirable Andean-type beans was restored. To assess underlying tolerance mechanisms, HTA4, together with a heat-sensitive Colombian variety (Calima), was exposed to HS (31 °C/24 °C HS vs. 26 °C/19 °C day/night) under controlled environment conditions. Vegetative growth and photosynthetic performance were not negatively impacted by HS in either genotype, although senescence was delayed in Calima. HS during the reproductive stage caused an increase in pod number in Calima but with few fully developed seeds and many pods aborted and/or abscised. In contrast, HTA4 maintained a similar filled pod number under HS and a higher seed weight per plant. Pollen showed high sterility in Calima, with many non-viable pollen grains (24.9% viability compared to 98.4% in control) with a thicker exine and fewer starch granules under HS. Calima pollen failed to adhere to the stigma and germinate under HS. In HTA4, pollen viability was significantly higher than in Calima (71.1% viability compared to 95.4% under control), and pollen successfully germinated and formed pollen tubes in the style under HS. It is concluded that HTA4 is heat tolerant and maintains a high level of reproductive output due to its ability to produce healthy pollen that is able to adhere to the stigma. [ABSTRACT FROM AUTHOR]

Published

2023

143. Pollen Viability and Microspore Culture in Three Broccoli Cultivars (Brassica oleracea L. var. italica Plenck)

Author

Septarini Dian Anitasari, Ida Ayu Astarini, Made Ria Defiani, Made Pharmawati ., and Dian Catur Prayantini

Subjects

Biology (General), QH301-705.5

Abstract

Broccoli is a high value vegetable crop in Indonesia, however production is low due to limited number of suitable cultivars, so, breeding hybrid broccoli for warm climate is important. The first step in hybridization is providing homozygote parent plants which can be done efficiently via microspore culture. The objectives of this study were to determine 1) bud size that produce uninucleate microspore stage appropriate for culture; 2) pollen viability, 3) microspore development, in three broccoli cultivars (‘BL 10001’, ‘Royal Green’ and ‘Green Magic’). Various bud size (1 – 5 cm) was squashed and observed microscopically to determine bud size containing uninucleate microspore. Pollen viability was determined by IKI staining and pollen germination method. Chromosome number was counted on root tips using squash method with aceto-orcein stain. Various heat treatment schemes were conducted to induce microspreo development. Result showed uninucleate microspore derived from 2-3 mm and 3-4 mm bud length of ‘BL-10001’ and ‘Royal Green’ was responsive for microspore development in culture. Pollen viability varied among cultivars, 78-87% on IKI method and 15-16% on germination test. Microspore culture showed different embryogenesis response; pollen-like structure was produced by ‘BL 10001’.

Published

2019

144. Phenotypic characteristics of black apricot Prunus × dasycarpa cultivar 'Shlor-Tsiran' in Armenia.

Author

Akopian, Janna, Navasardyan, Yevgenia, Rudov, Alexander, Stepanyan, Lala, Zaroyan, Gevorg, and Gabrielyan, Gayane

Subjects

*GENITALIA, *POLLEN viability, *FRUIT ripening, *POLLEN, *FRUIT trees, *APRICOT

Abstract

'Shlor-Tsiran' (literally called 'Plum-Apricot') is an old black apricot cultivar, which is traditionally cultivated in Armenia. Taxonomically, it belongs to Prunus × dasycarpa Ehrh., which is a spontaneous hybrid of apricot and cherry plum (P. armeniaca L. × P. cerasifera Ehrh.). Currently, 'Shlor-Tsiran' is considered to be very rare in Armenia and it occurs as single trees in old home orchards of the Ararat Valley. It is characterised by high frost and disease resistance, late flowering and fruiting compared with other cultivated apricots, and is of interest for the development of apricot cultivars displaying delayed fruit ripening and enhanced frost resistance. This study aims to phenotype the cv. 'Shlor-Tsiran' taking into consideration 67 quantitative and qualitative characteristics of vegetative and generative organs, growth and development. Morphological description of the cv. 'Shlor-Tsiran', comparing with its parent species, P. armeniaca and P. cerasifera, was performed. Data on fertility and viability of pollen grains, biochemical and nutritional properties of fruits and tree productivity are provided. The data obtained should contribute to a wider use and conservation of the black apricot cv. 'Shlor-Tsiran' gene pool, which can be used for breeding purposes as well. The article is illustrated with tables and original photographs. [ABSTRACT FROM AUTHOR]

Published

2024

145. Image Analysis Protocol for Pollen Viability Identification on Selected Genotypes of Rice (Oryza sativa L.).

Author

Rj C. Go, Ryan Rey M. Daga, and Maria Elisa B. Gerona

Published

2019

146. Effect of pollination time, the hour of daytime, pollen storage temperature and duration on pollen viability, germinability, and fruit set of date palm (Phoenix dactylifera L.) cv "Deglet Nour".

Author

Kadri, Karim, Elsafy, Mohammed, Makhlouf, Souhayla, and Awad, Mohamed A

Abstract

Success artificial pollination with viable pollen is crucial process in the production chain of date palms. This study evaluated the impact of pollen storage temperature and duration, pollination time following spathe cracking, and the hour of daytime on pollen viability, germinability, fruit set and yield of 'Deglet Nour' date palm cultivar. In in vitro tests, fresh pollen showed the maximum viability (96.3%) and germination (85%) but it decreased thereafter upon the storage temperature (28, 4 and −30 °C) and duration (3, 6, 9 and 12 months). In this respect, pollen stored at −30 °C retained highest viability and germinability followed by those stored at 4 and then at 28 °C. In filed experiments, fruit set was 85, 75, 65, and 45% with pollination using fresh pollen, or pollen stored at −30, 4 and 28 °C, respectively. Fruit set was 95%, 75%, and less than 50%, for pollination performed on the same day of spathe cracking, 6 and 12 days later, respectively. The highest fruit set percentage and yield/bunch were obtained with pollination performed between 12.0 pm and 15.0 pm in contrast to 8.0–11.0 am or 16.0–17.0. [ABSTRACT FROM AUTHOR]

Published

2022

147. Differences in stomatal and pollen grain dimensions and pollen viability between Paspalum rawitscheri populations.

Author

Barreto de Freitas, Jessica Mena, Wouters Kuhn, Andrielle, Dal-Souto Frescura, Viviane, Essi, Liliana, and Bosio German, Solange

Subjects

*POLLEN, *POLLEN viability, *GRAIN size, *STOMATA

Abstract

The objective of this study was to evaluate stomatal and pollen grain size and to estimate pollen viability of individuals from different populations of Paspalum rawitscheri (Parodi) Chase ex G.H. Rua & Valls. To analyze stomatal size, slides were made of the adaxial leaf epidermis using the epidermal impression method. The height and width of 100 stomata per population were analyzed. Pollen was obtained from inflorescences to evaluate pollen grain size and pollen viability. Pollen grains were stained with 2% acetic orcein, 2% acetic carmine, or Alexander's reactive stain. Per population, 1600 grains of pollen were observed for viability, and 50 grains of pollen were measured. There were significant differences between populations in stomatal height and pollen grain height and width. The populations also differed in pollen viability, with the Santa Maria population showing the lowest viability. The differences in stomatal and pollen grain size suggest genetic variability in the evaluated populations. Moreover, low pollen viability in one population indicates that its decline may be related to low fertility. [ABSTRACT FROM AUTHOR]

Published

2020

148. Zinc Nutrition Responses to Agronomic and Yield Traits, Kernel Quality, and Pollen Viability in Rice (Oryza sativa L.)

Author

Essam E. Kandil, Aly A. A. El-Banna, Dalia M. M. Tabl, Marwa I. Mackled, Rehab Y. Ghareeb, Asma A. Al-Huqail, Hayssam M. Ali, Jebril Jebril, and Nader R. Abdelsalam

Subjects

cultivars, fertilization, rice, toxicity, pollen, yield, Plant culture, SB1-1110

Abstract

Rice (Oryza sativa L.) is one of the major cereal crops worldwide with wheat and maize. A total of two field experiments were performed to evaluate the response of some rice cultivars to various foliar zinc (Zn) concentrations based on different measurements, such as agronomic, yield, yield compounds, and grain technological parameters. The experimental layout was a split plot in three replicates; the five rice cultivars (Skaha 101, Giza178, Yasmeen, Fourate, and Amber 33) were distributed in the main plots while the four foliar applications of Zn (1,500, 2,000, 2,500 mg/L besides spray water) were occupied the sub-plots. The findings showed significant differences among the five rice cultivars regarding plant height, grain yield, straw yield, biological yield, harvest index, 1,000-grain weight, panicle length, protein percentage, and grain Zn content. There is a significant effect of Zn on all plant attributes. A significant interaction between rice cultivars and foliar application of Zn was observed, whereas fertilizing Giza 178 with foliar application of Zn at the rate of 2,500 mg/L achieved the highest mean values of grain yield and straw yield, biological yield, harvest index, 1,000-grain weight, panicle length, protein %, and Zn content followed by Sakha 101 with Zn application at the rate of 2,000 mg/L, respectively, in both seasons. The rice cultivars significantly differed in hulling (%), broken (%), hardness, grain length, shape, amylose (%), gel consistency, and gelatinization temperature. Unfortunately, the commercial Zn product used was genotoxic to pollen grains with a higher rate of Zn. Aberrations were observed such as stickiness, ultrastructural changes in the exterior and interior walls, partially or fully degenerated grains, and shrunken and unfilled grains. This study concluded that using Zn application at the rate of 2,000 mg/L to protect human and environmental health, the side effects and toxicity of the local commercial Zn product market should be investigated before making recommendations to farmers.

Published

2022

149. SNP-Based Genome-Wide Association Mapping of Pollen Viability Under Heat Stress in Tropical Zea mays L. Inbred Lines

Author

Zubair Ahmed, Maria Khalid, Abdul Ghafoor, Muhammad Kausar Nawaz Shah, Ghazala Kaukab Raja, Rashid Mehmood Rana, Tahir Mahmood, and Addie M. Thompson

Subjects

maize, extreme temperature, genetic mapping, pollen sterility, yield, flowering time, Genetics, QH426-470

Abstract

Global environmental changes with more extreme episodes of heat waves are major threats to agricultural productivity. Heat stress in spring affects the reproductive stage of maize, resulting in tassel blast, pollen abortion, poor pollination, reduced seed set, barren ears and ultimately yield loss. As an aneamophelous crop, maize has a propensity for pollen abortion under heat stress conditions. To overcome the existing challenges of heat stress and pollen abortion, this study utilized a broad genetic base of maize germplasm to identify superior alleles to be utilized in breeding programs. A panel of 375 inbred lines was morpho-physiologically screened under normal and heat stress conditions in two locations across two consecutive planting seasons, 2017 and 2018. The exposure of pollen to high temperature showed drastic decline in pollen germination percentage. The average pollen germination percentage (PGP) at 35 and 45°C was 40.3% and 9.7%, respectively, an average decline of 30.6%. A subset of 275 inbred lines were sequenced using tunable genotyping by sequencing, resulting in 170,098 single nucleotide polymorphisms (SNPs) after filtration. Genome wide association of PGP in a subset of 122 inbred lines resulted in ten SNPs associated with PGP35°C (p ≤ 10−5), nine with PGP45°C (p ≤ 10−6–10−8) and ten SNPs associated with PGP ratio (p ≤ 10−5). No SNPs were found to be in common across PGP traits. The number of favorable alleles possessed by each inbred line for PGP35°C, PGP45°C, and the PGP ratio ranged between 4 and 10, 3–13 and 5–13, respectively. In contrast, the number of negative alleles for these traits ranged between 2 and 8, 3–13 and 3–13, respectively. Genetic mapping of yield (adjusted weight per plant, AWP−1) and flowering time (anthesis-silking interval, ASI) in 275 lines revealed five common SNPs: three shared for AWP−1 between normal and heat stress conditions, one for ASI between conditions, and one SNP, CM007648.1-86615409, was associated with both ASI and AWP−1. Variety selection can be performed based on these favorable alleles for various traits. These marker trait associations identified in the diversity panel can be utilized in breeding programs to improve heat stress tolerance in maize.

Published

2022

150. Pollen Viability and the Potential for Self-Pollen Interference in Phlox hirsuta , an Endangered Species

Author

Ruane, Lauren G., Hancock, Laura M. S., Rotzin, Andrew T., and Luce, Candice N.

Published

2013