Your search keyword '"Pritchard HW"' showing total 189 results

1. Seed conservation: turning science into practice.<br>Smith RD, Dickie JB, Linington SH, Pritchard HW, Probert RJ, eds. 2003.<br>London: The Royal Botanic Gardens, Kew. £59·95 (soft back). 1023 pp.

Author

Ellis, R. H.

Subjects

PLANT hormones, NONFICTION

Abstract

The article reviews the book "Phytohormones in Plant Biotechnology and Agriculture: Proceedings of the NATO-Russia Workshop Held in Moscow, 12-16 May 2002," edited by I. Macháckova and G.A. Romanov.

Published

2005

2. Viability and integrity of Pinus densiflora seeds stored for 20 years at three different temperatures.

Author

Gu, Da-Eun, Han, Sim-Hee, and Kang, Kyu-Suk

Subjects

SEED storage, ELECTROLYTE analysis, CARBOHYDRATE metabolism, HIGH temperatures, ELECTRIC conductivity, SEED viability, GERMINATION

Abstract

Storage temperature is one of the most important factors determining seed longevity in the genebank. This study aimed to investigate the effect of storage temperature on the seed viability and physiological integrity after a 20-year storage period of Pinus densiflora , a tree species of ecological and economic significance in South Korea. To this end, seeds were collected and stored dry for 20 years at −18°C, 4°C and 25°C. Germination tests were conducted to assess seed viability and vigour, electrolyte leakage analysis was performed to assess cell membrane integrity, and carbohydrate analysis was conducted to assess metabolic integrity during germination. The results revealed that over 20 years, seeds stored at −18°C maintained a high germination percentage (GP; 89%), comparable to initial GP (91%), whilst those stored at 4°C exhibited a decline in GP (44%) along with a decrease in vigour. Seeds stored at 25°C lost their viability entirely. Electrical conductivity of the leachate and leakage of inorganic compounds and soluble sugars were higher with elevated storage temperature, indicating increased imbibition damage. Additionally, changes in carbohydrate content during germination revealed that the loss of viability according to storage temperature is associated with reduced storage reserve utilization and altered carbohydrate metabolism during germination. These results enhance our understanding of the effect of seed storage temperature on longevity and physiological changes of aging in the genebank, serving as a reference for establishing conservation strategies for Pinus densiflora. [ABSTRACT FROM AUTHOR]

Published

2024

3. Deleterious and Adaptive Mutations in Plant Germplasm Conserved Ex Situ.

Author

Fu, Yong-Bi, Peterson, Gregory W, and Horbach, Carolee

Subjects

PLANT germplasm, PLANT mutation, GERMPLASM, GERMPLASM conservation, SEED harvesting, OATS, SUNFLOWER seeds

Abstract

Conserving more than 7 million plant germplasm accessions in 1,750 genebanks worldwide raises the hope of securing the food supply for humanity for future generations. However, there is a genetic cost for such long-term germplasm conservation, which has been largely unaccounted for before. We investigated the extent and variation of deleterious and adaptive mutations in 490 individual plants representing barley, wheat, oat, soybean, maize, rapa, and sunflower collections in a seed genebank using RNA-Seq technology. These collections were found to have a range of deleterious mutations detected from 125 (maize) to 83,695 (oat) with a mean of 13,537 and of the averaged sample-wise mutation burden per deleterious locus from 0.069 to 0.357 with a mean of 0.200. Soybean and sunflower collections showed that accessions acquired earlier had increased mutation burdens. The germplasm with more years of storage in several collections carried more deleterious and fewer adaptive mutations. The samples with more cycles of germplasm regeneration revealed fewer deleterious and more adaptive mutations. These findings are significant for understanding mutational dynamics and genetic cost in conserved germplasm and have implications for long-term germplasm management and conservation. [ABSTRACT FROM AUTHOR]

Published

2023

4. Concluding Embryogenesis After Diaspora: Seed Germination in Illicium Parviflorum.

Author

Losada, Juan M

Subjects

GERMINATION, EMBRYOLOGY, SEED storage compounds (Biochemistry), SEED dispersal, DIASPORA, SEEDS, PECTINS

Abstract

Albuminous seeds, dispersed with a minimally developed embryo surrounded by nutrient storage tissue, are pervasive across extinct and extant early diverging angiosperm lineages. Typically, seed ontogenic studies have focused on the time between fertilization and seed release, but in albuminous seeds, embryogenesis is incomplete at the time of seed dispersal. Here, I studied the morphological and nutritional relationships between the embryo and the endosperm after seed dispersal in Illicium parviflorum (Austrobaileyales). Seeds of I. parviflorum germinate over a period of three months. Different stages during the germination process were anatomically evaluated using a combination of histochemistry and immunocytochemistry. At dispersal, the seeds of Illicium contain a tiny achlorophyllous embryo with minimal histological differentiation, surrounded by copious amounts of lipo-protein globules stored in the endosperm within cell walls rich in un-esterified pectins. Six weeks later, the embryo expanded and differentiated the vascular tissues before the emergence of the radicle through the seed coat, as the stored lipids and proteins coalesced within cells. Six weeks later, the cotyledons contained starch and complex lipids intracellularly, and accumulated low-esterified pectins in their cell walls. The proteolipid-rich albuminous seeds of Illicium exemplify how woody angiosperms of the Austrobaileyales, Amborellales, and many magnoliids release seeds with high-energy storage compounds that are reprocessed by embryos that complete development during germination. Seedlings of these lineages thrive in the understory of tropical environments, which match with the predicted habitats where angiosperms evolved. [ABSTRACT FROM AUTHOR]

Published

2023

5. Kinetics of dormancy release and the high temperature germination response in seeds.

Author

Pritchard, HW, Pritchard, Hugh W., Steadman, KJ, Steadman, Kathryn J., Nash, JV, Nash, John V., Jones, C, and Jones, Ceri

Subjects

HORSE chestnut, GERMINATION, SEED stratification

Abstract

Investigates the kinetics of primary dormancy loss in seeds of horse chestnut, Aesculus hippocastanum, harvested in four different years. High and low temperature germination response; Slight variation in base temperature for germination of newly harvested seeds between collection years; Influence of stratification on rate of germination.

Published

1999

6. The chances in the redox priming of nondormant recalcitrant seeds by spermidine.

Author

Fuchs, Hanna, Plitta-Michalak, Beata P, Małecka, Arleta, Ciszewska, Liliana, Sikorski, Łukasz, Staszak, Aleksandra M, Michalak, Marcin, and Ratajczak, Ewelina

Subjects

SPERMIDINE, SEEDS, GERMINATION, OXIDATION-reduction reaction, HYDROGEN peroxide

Abstract

The problems posed by seed sensitivity to desiccation and aging have motivated the development of various techniques for mitigating their detrimental effects. The redox priming of seeds in antioxidant solution to improve their postharvest performance is one of the approaches. Spermidine (Spd) was tested as an invigorating solution on nondormant recalcitrant (desiccation-sensitive) seeds of the silver maple (Acer saccharinum L.). The treatment resulted in an 8–10% increase in germination capacity in seeds subjected to mild and severe desiccation, while in aged seeds stored for 6 months, no significant change was observed. The cellular redox milieu, genetic stability, mitochondrial structure and function were investigated to provide information about the cellular targets of Spd activity. Spermidine improved the antioxidative capacity, especially the activity of catalase, and cellular membrane stability, protected genome integrity from oxidative damage and increased the efficiency of mitochondria. However, it also elicited a hydrogen peroxide burst. Therefore, it seems that redox priming in nondormant seeds that are highly sensitive to desiccation, although it positively affected desiccated seed performance, may not be a simple solution to reinvigorate stored seeds with a low-efficiency antioxidant system. [ABSTRACT FROM AUTHOR]

Published

2023

7. The dynamics of external water conduction in the dryland moss Syntrichia.

Author

Jauregui-Lazo, Javier, Wilson, Marielle, and Mishler, Brent D

Subjects

MICROSCOPY, CELL anatomy, SCANNING electron microscopes, CONFOCAL microscopy, WATER storage, MOSSES, ONTOGENY

Abstract

Syntrichia relies on external water conduction for photosynthesis, survival, and reproduction, a condition referred to as ectohydry. Capillarity spaces are abundant in Syntrichia , but the link between function and morphology is complex. The aim of this study was to provide a better understanding of species-specific morphological traits underlying the functions of water conduction and storage. We used an environmental scanning electron microscope and confocal microscopy for observing anatomical characters in the leaves of Syntrichia species. We also measured hydration/dehydration curves to understand the rate of conduction and dehydration by experimental approaches. Syntrichia is an ectohydric moss that can externally transport and store water from the base of the stem using capillary action. We propose a new framework to study ectohydric capabilities, which incorporates three morphological scales and the timing of going from completely dehydrated to fully hydrated. Characters of interest in this model include cell anatomy (papillae development, hyaline basal cells and laminar cells), architecture of the stem (concavity and orientation) and whole clump characteristics (density of stems). We report significant variations in the speed of conduction, water holding capacity and hydration associated with each species studied (11 in total). All Syntrichia species are capable of external water conduction and storage, but the relevant traits differ among species. These results help to understand potential evolutionary and ecological trade-offs among speed of water conduction, water holding capacity, ontogeny, and differing habitat requirements. An integrative view of ectohydry in Syntrichia contributes to understanding the water relationships of mosses. [ABSTRACT FROM AUTHOR]

Published

2023

8. Environmental impacts on barley grain composition and longevity.

Author

Dufková, Hana, Berka, Miroslav, Psota, Vratislav, Brzobohatý, Břetislav, and Černý, Martin

Subjects

COMPOSITION of grain, BARLEY, RIBOSOMAL proteins, SEED viability, HEAT shock proteins, GRAIN

Abstract

To counter projected reductions in yields of the major crop barley, it is essential to elucidate the mechanisms of its resilience. To assist such efforts, we collected grains from plants grown in fields at 12 testing stations, with suitable temperature and precipitation gradients for identifying environmentally induced changes in their protein and metabolite contents. We then subjected the grains to detailed molecular analysis. The results showed that numerous metabolites and at least a quarter of the grain protein content was modulated by the environment, and provided insights into barley seed production under abiotic stress, including alterations in ribosomal proteins, heatshock protein 70 family proteins, inhibitors, storage proteins, and lipid droplet formation. Potential positive and negative markers of yield were also identified, including the phenolic compound catechin and storage protein levels, respectively. Complementary analyses of barley seedlings and Arabidopsis seeds, respectively, confirmed the role of the identified proteins in abiotic stress responses and highlighted evolutionarily conserved mechanisms. In addition, accelerated ageing experiments revealed that variations in the environment had stronger effects on seed longevity than the genotype. Finally, seeds with the highest longevity differed from the others in gibberellin contents, H2O2 metabolism, and levels of >250 proteins, providing novel targets for improving resilience. [ABSTRACT FROM AUTHOR]

Published

2023

9. Massive increases in C31 alkane on Zygophyllum xanthoxylum leaves contribute to its excellent abiotic stress tolerance.

Author

Li, Hu-Jun, Bai, Wan-Peng, Liu, Lin-Bo, Liu, Hai-Shuang, Wei, Li, Garant, Timothy M, Kalinger, Rebecca S, Deng, Yu-Xuan, Wang, Gai-Ni, Bao, Ai-Ke, Ma, Qing, Rowland, Owen, and Wang, Suo-Min

Subjects

ZANTHOXYLUM, ABIOTIC stress, DESERT plants, ALKANES, CHLOROPHYLL in water, DROUGHT management

Abstract

Background and Aims Desert plants possess excellent water-conservation capacities to survive in extreme environments. Cuticular wax plays a pivotal role in reducing water loss through plant aerial surfaces. However, the role of cuticular wax in water retention by desert plants is poorly understood. Methods We investigated leaf epidermal morphology and wax composition of five desert shrubs from north-west China and characterized the wax morphology and composition for the typical xerophyte Zygophyllum xanthoxylum under salt, drought and heat treatments. Moreover, we examined leaf water loss and chlorophyll leaching of Z. xanthoxylum and analysed their relationships with wax composition under the above treatments. Key Results The leaf epidermis of Z. xanthoxylum was densely covered by cuticular wax, whereas the other four desert shrubs had trichomes or cuticular folds in addition to cuticular wax. The total amount of cuticular wax on leaves of Z. xanthoxylum and Ammopiptanthus mongolicus was significantly higher than that of the other three shrubs. Strikingly, C31 alkane, the most abundant component, composed >71 % of total alkanes in Z. xanthoxylum , which was higher than for the other four shrubs studied here. Salt, drought and heat treatments resulted in significant increases in the amount of cuticular wax. Of these treatments, the combined drought plus 45 °C treatment led to the largest increase (107 %) in the total amount of cuticular wax, attributable primarily to an increase of 122 % in C31 alkane. Moreover, the proportion of C31 alkane within total alkanes remained >75 % in all the above treatments. Notably, the water loss and chlorophyll leaching were reduced, which was negatively correlated with C31 alkane content. Conclusion Zygophyllum xanthoxylum could serve as a model desert plant for study of the function of cuticular wax in water retention because of its relatively uncomplicated leaf surface and because it accumulates C31 alkane massively to reduce cuticular permeability and resist abiotic stressors. [ABSTRACT FROM AUTHOR]

Published

2023

10. Demystifying the convergent ecological specialization of desiccation-tolerant vascular plants for water deficit.

Author

Bondi, Luiz, Paula, Luiza F A de, Rosado, Bruno H P, and Porembski, Stefan

Subjects

PLANT-water relationships, AQUATIC plants, WATER use, DROUGHTS

Abstract

Background and Aims Desiccation-tolerant vascular plants (DT plants) are able to tolerate the desiccation of their vegetative tissues; as a result, two untested paradigms can be found in the literature, despite contradictions to theoretical premises and empirical findings. First, it is widely accepted that DT plants form a convergent group of specialist plants to water deficit conditions. A derived paradigm is that DT plants are placed at the extreme end of stress tolerance. Here, we tested the hypotheses that DT plants (1) are in fact convergent specialists for water deficit conditions and (2) exhibit ecological strategies related to stress tolerance, conservative resource-use and survival. Methods We used biogeographical and functional-traits approaches to address the mentioned paradigms and assess the species' ecological strategies. For this, 27 DT plants were used and compared to 27 phylogenetically related desiccation-sensitive vascular plants (DS plants). Key Results We could not confirm either of the two hypotheses. We found that despite converging in desiccation tolerance, DT plants differ in relation to the conditions in which they occur and the ecological strategies they use to deal with water deficit. We found that some DT plants exhibit advantageous responses for higher growth and resource acquisition, which are suitable responses to cope with more productive conditions or with higher disturbance. We discuss that the ability to tolerate desiccation could compensate for a drought vulnerability promoted by higher investment in growth and bring advantages to deal with quick and pronounced variation of water, rather than to drought solely. Conclusions DT plants are not only selected by drought as an environmental constraint. The alternative functional designs could promote the diversity of ecological strategies, which preclude their convergence to the same resources and conditions. Thus, DT plants are a heterogeneous group of plants in how they deal with drought, despite their desiccation tolerance ability. [ABSTRACT FROM AUTHOR]

Published

2023

11. Response of seed germination and seedling emergence of Haloxylon ammodendron to rain frequency and temperature change from four desert ecosystems, Northwest China.

Author

Zhu, Yajuan, Jia, Zhiqing, Wang, Guoje, Ning, Husen, Ji, Xiaomin, and Luo, Qinghong

Subjects

RAINFALL, GERMINATION, DESERTS, ARID regions, DESERT plants, TEMPERATURE, SEEDLINGS

Abstract

Climate change will result in variation of rain frequency and amount and warming in arid zones, which is expected to affect seed germination and seedling emergence in desert ecosystems. However, the effects of unpredictable rainfall and increasing temperature on seed germination and seedling emergence of dominant desert plants remain unclear across different deserts, which are important for population regeneration and community succession in desert ecosystems. Seed germination and seedling emergence of Haloxylon ammodendron across four deserts in Northwest China were examined at different rain frequencies with same total amount, and constant and alternating temperatures, to investigate their response to climate change. Rain frequency determined seed germination and seedling emergence of H. ammodendron in the Tengger Desert, Badain Jaran Desert, Gurbantonggut Desert and Mutthar Desert, which was maximal at rain frequency of 10 times per month and decreased with a decrease of rain frequency. Temperature was not a restricting factor for seed germination of H. ammodendron in the Tengger Desert, Badain Jaran Desert and Gurbantonggut Desert, varying from 10 °C to 25 °C and from 20/10 °C to 30/15 °C, respectively. However, the highest temperature of 25 °C and 30/15 °C inhibited seed germination of H. ammodendron in the Mutthar Desert. Thus, H. ammodendron has an opportunistic germination strategy. Under climate change in the future, seed germination and seedling emergence of H. ammodendron would be restricted by the combination of less frequent rainfall and increased temperature in desert ecosystems. The regeneration of the H. ammodendron community should be promoted by irrigation and seedling transplant. [ABSTRACT FROM AUTHOR]

Published

2023

12. Low availability of functional seed trait data from the tropics could negatively affect global macroecological studies, predictive models and plant conservation.

Author

Visscher, Anne M, Vandelook, Filip, Fernández-Pascual, Eduardo, Pérez-Martínez, Laura Victoria, Ulian, Tiziana, Diazgranados, Mauricio, and Mattana, Efisio

Subjects

PLANT conservation, PREDICTION models, GERMINATION, PLANT dispersal, PLANT diversity, ENGLISH literature, PLANT populations

Abstract

Background Plant seeds have many traits that influence ecological functions, ex situ conservation, restoration success and their sustainable use. Several seed traits are known to vary significantly between tropical and temperate regions. Here we present three additional traits for which existing data indicate differences between geographical zones. We discuss evidence for geographical bias in availability of data for these traits, as well as the negative consequences of this bias. Scope We reviewed the literature on seed desiccation sensitivity studies that compare predictive models to experimental data and show how a lack of data on populations and species from tropical regions could reduce the predictive power of global models. In addition, we compiled existing data on relative embryo size and post-dispersal embryo growth and found that relative embryo size was significantly larger, and embryo growth limited, in tropical species. The available data showed strong biases towards non-tropical species and certain families, indicating that these biases need to be corrected to perform truly global analyses. Furthermore, we argue that the low number of seed germination studies on tropical high-mountain species makes it difficult to compare across geographical regions and predict the effects of climate change in these highly specialized tropical ecosystems. In particular, we show that seed traits of geographically restricted páramo species have been studied less than those of more widely distributed species, with most publications unavailable in English or in the peer-reviewed literature. Conclusions The low availability of functional seed trait data from populations and species in the tropics can have negative consequences for macroecological studies, predictive models and their application to plant conservation. We propose that global analyses of seed traits with evidence for geographical variation prioritize generation of new data from tropical regions as well as multi-lingual searches of both the grey- and peer-reviewed literature in order to fill geographical and taxonomic gaps. [ABSTRACT FROM AUTHOR]

Published

2022

13. Ecology and responses to climate change of biocrust-forming mosses in drylands.

Author

Guevara, Mónica Ladrón de and Maestre, Fernando T

Subjects

MOSSES, PHYSIOLOGICAL adaptation, CRUST vegetation, ECOSYSTEMS, CLIMATE change

Abstract

Interest in understanding the role of biocrusts as ecosystem engineers in drylands has substantially increased during the past two decades. Mosses are a major component of biocrusts and dominate their late successional stages. In general, their impacts on most ecosystem functions are greater than those of early-stage biocrust constituents. However, it is common to find contradictory results regarding how moss interactions with different biotic and abiotic factors affect ecosystem processes. This review aims to (i) describe the adaptations and environmental constraints of biocrust-forming mosses in drylands, (ii) identify their primary ecological roles in these ecosystems, and (iii) synthesize their responses to climate change. We emphasize the importance of interactions between specific functional traits of mosses (e.g. height, radiation reflectance, morphology, and shoot densities) and both the environment (e.g. climate, topography, and soil properties) and other organisms to understand their ecological roles and responses to climate change. We also highlight key areas that should be researched in the future to fill essential gaps in our understanding of the ecology and the responses to ongoing climate change of biocrust-forming mosses. These include a better understanding of intra- and interspecific interactions and mechanisms driving mosses' carbon balance during desiccation–rehydration cycles. [ABSTRACT FROM AUTHOR]

Published

2022

14. Desiccation–rehydration measurements in bryophytes: current status and future insights.

Author

Morales-Sánchez, José Ángel M, Mark, Kristiina, Souza, João Paulo S, and Niinemets, Ülo

Subjects

BRYOPHYTES, LIVERWORTS, SPECIES, STANDARDIZATION, MEASUREMENT

Abstract

Desiccation–rehydration experiments have been employed over the years to evaluate desiccation tolerance of bryophytes (Bryophyta, Marchantiophyta, and Anthocerotophyta). Researchers have applied a spectrum of protocols to induce desiccation and subsequent rehydration, and a wide variety of techniques have been used to study desiccation-dependent changes in bryophyte molecular, cellular, physiological, and structural traits, resulting in a multifaceted assortment of information that is challenging to synthesize. We analysed 337 desiccation–rehydration studies, providing information for 351 species, to identify the most frequent methods used, analyse the advances in desiccation studies over the years, and characterize the taxonomic representation of the species assessed. We observed certain similarities across methodologies, but the degree of convergence among the experimental protocols was surprisingly low. Out of 52 bryophyte orders, 40% have not been studied, and data are lacking for multiple remote or difficult to access locations. We conclude that for quantitative interspecific comparisons of desiccation tolerance, rigorous standardization of experimental protocols and measurement techniques, and simultaneous use of an array of experimental techniques are required for a mechanistic insight into the different traits modified in response to desiccation. New studies should also aim to fill gaps in taxonomic, ecological, and spatial coverage of bryophytes. [ABSTRACT FROM AUTHOR]

Published

2022

15. Biological soil crusts and how they might colonize other worlds: insights from these Brazilian ecosystem engineers.

Author

Oliveira, Mateus Fernandes and Maciel-Silva, Adaíses Simone

Subjects

CRUST vegetation, ECOSYSTEMS, ENGINEERS, NITROGEN fixation, SOIL particles, FUNGAL communities

Abstract

When bryophytes, lichens, eukaryotic algae, cyanobacteria, bacteria, and fungi live interacting intimately with the most superficial particles of the soil, they form a complex community of organisms called the biological soil crust (BSC or biocrust). These biocrusts occur predominantly in drylands, where they provide important ecological services such as soil aggregation, moisture retention, and nitrogen fixation. Unfortunately, many BSC communities remain poorly explored, especially in the tropics. This review summarizes studies about BSCs in Brazil, a tropical megadiverse country, and shows the importance of ecological, physiological, and taxonomic knowledge of biocrusts. We also compare Brazilian BSC communities with others around the world, describe why BSCs can be considered ecosystem engineers, and propose their use in the colonization of other worlds. [ABSTRACT FROM AUTHOR]

Published

2022

16. Viability markers for determination of desiccation tolerance and critical stages during dehydration in Selaginella species.

Author

Alejo-Jacuinde, Gerardo, Kean-Galeno, Tania, Martínez-Gallardo, Norma, Tejero-Díez, J Daniel, Mehltreter, Klaus, Délano-Frier, John P, Oliver, Melvin J, Simpson, June, and Herrera-Estrella, Luis

Subjects

SELAGINELLA, TETRAZOLIUM chloride, TISSUE viability, DEHYDRATION, SPECIES, FERNS

Abstract

While most plants die below a threshold of water content, desiccation-tolerant species display specific responses that allow them to survive extreme dehydration. Some of these responses are activated at critical stages during water loss and could represent the difference between desiccation tolerance (DT) and death. Here, we report the development of a simple and reproducible system to determine DT in Selaginella species. The system is based on exposure of excised tissue to a dehydration agent inside small containers, and subsequent evaluation for tissue viability. We evaluated several methodologies to determine viability upon desiccation including: triphenyltetrazolium chloride (TTC) staining, the quantum efficiency of PSII, antioxidant potential, and relative electrolyte leakage. Our results show that the TTC test is a simple and accurate assay to identify novel desiccation-tolerant Selaginella species, and can also indicate viability in other desiccation-tolerant models (i.e. ferns and mosses). The system we developed is particularly useful to identify critical points during the dehydration process. We found that a desiccation-sensitive Selaginella species shows a change in viability when dehydrated to 40% relative water content, indicating the onset of a critical condition at this water content. Comparative studies at critical stages could provide a better understanding of DT mechanisms and unravel insights into the key responses to survive desiccation. [ABSTRACT FROM AUTHOR]

Published

2022

17. Climate shapes the seed germination niche of temperate flowering plants: a meta-analysis of European seed conservation data.

Author

Carta, Angelino, Fernández-Pascual, Eduardo, Gioria, Margherita, Müller, Jonas V, Rivière, Stéphane, Rosbakh, Sergey, Saatkamp, Arne, Vandelook, Filip, and Mattana, Efisio

Subjects

GERMINATION, FLOWERING of plants, ANGIOSPERMS, PLANT evolution, SEASONAL temperature variations, RESPONSE inhibition

Abstract

Background and Aims Interactions between ecological factors and seed physiological responses during the establishment phase shape the distribution of plants. Yet, our understanding of the functions and evolution of early-life traits has been limited by the scarcity of large-scale datasets. Here, we tested the hypothesis that the germination niche of temperate plants is shaped by their climatic requirements and phylogenetic relatedness, using germination data sourced from a comprehensive seed conservation database of the European flora (ENSCOBASE). Methods We performed a phylogenetically informed Bayesian meta-analysis of primary data, considering 18 762 germination tests of 2418 species from laboratory experiments conducted across all European geographical regions. We tested for the interaction between species' climatic requirements and germination responses to experimental conditions including temperature, alternating temperature, light and dormancy-breaking treatments, while accounting for between-study variation related to seed sources and seed lot physiological status. Key Results Climate was a strong predictor of germination responses. In warm and seasonally dry climates the seed germination niche includes a cold-cued germination response and an inhibition determined by alternating temperature regimes and cold stratification, while in climates with high temperature seasonality opposite responses can be observed. Germination responses to scarification and light were related to seed mass but not to climate. We also found a significant phylogenetic signal in the response of seeds to experimental conditions, providing evidence that the germination niche is phylogenetically constrained. Nevertheless, phylogenetically distant lineages exhibited common germination responses under similar climates. Conclusion This is the first quantitative meta-analysis of the germination niche at a continental scale. Our findings showed that the germination niches of European plants exhibit evolutionary convergence mediated by strong pressures at the macroclimatic level. In addition, our methodological approach highlighted how large datasets generated by conservation seed banking can be valuable sources to address questions in plant macroecology and evolution. [ABSTRACT FROM AUTHOR]

Published

2022

18. Stepping up to the thermogradient plate: a data framework for predicting seed germination under climate change.

Author

Collette, Justin C, Sommerville, Karen D, Lyons, Mitchell B, Offord, Catherine A, Errington, Graeme, Newby, Zoe-Joy, Richter, Lotte von, and Emery, Nathan J

Subjects

GERMINATION, CLIMATE change, PLANT conservation, PLANT species, INFORMATION resources management, WILDLIFE conservation

Abstract

Background and Aims Seed germination is strongly influenced by environmental temperatures. With global temperatures predicted to rise, the timing of germination for thousands of plant species could change, leading to potential decreases in fitness and ecosystem-wide impacts. The thermogradient plate (TGP) is a powerful but underutilized research tool that tests germination under a broad range of constant and alternating temperatures, giving researchers the ability to predict germination characteristics using current and future climates. Previously, limitations surrounding experimental design and data analysis methods have discouraged its use in seed biology research. Methods Here, we have developed a freely available R script that uses TGP data to analyse seed germination responses to temperature. We illustrate this analysis framework using three example species: Wollemia nobilis , Callitris baileyi and Alectryon subdentatus. The script generates >40 germination indices including germination rates and final germination across each cell of the TGP. These indices are then used to populate generalized additive models and predict germination under current and future monthly maximum and minimum temperatures anywhere on the globe. Key Results In our study species, modelled data were highly correlated with observed data, allowing confident predictions of monthly germination patterns for current and future climates. Wollemia nobilis germinated across a broad range of temperatures and was relatively unaffected by predicted future temperatures. In contrast, C. baileyi and A. subdentatus showed strong seasonal temperature responses, and the timing for peak germination was predicted to shift seasonally under future temperatures. Conclusions Our experimental workflow is a leap forward in the analysis of TGP experiments, increasing its many potential benefits, thereby improving research predictions and providing substantial information to inform management and conservation of plant species globally. [ABSTRACT FROM AUTHOR]

Published

2022

19. Regeneration from seed in herbaceous understorey of ancient woodlands of temperate Europe.

Author

Blandino, Cristina, Fernández-Pascual, Eduardo, Newton, Rosemary J, and Pritchard, Hugh W

Subjects

TEMPERATE forests, GERMINATION, REGENERATION (Botany), SEED dormancy, RIPARIAN forests, SPECIES distribution, WINTER, RAIN forests

Abstract

Background and Aims European ancient woodlands are subject to land use change, and the distribution of herbaceous understorey species may be threatened because of their poor ability to colonize isolated forest patches. The regeneration niche can determine the species assembly of a community, and seed germination traits may be important descriptors of this niche. Methods We analysed ecological records for 208 herbaceous species regarded as indicators of ancient woodlands in Europe and, where possible, collated data on seed germination traits, reviewed plant regeneration strategies and measured seed internal morphology traits. The relationship between plant regeneration strategies and ecological requirements was explored for 57 species using ordination and classification analysis. Key Results Three regeneration strategies were identified. Species growing in closed-canopy areas tend to have morphological seed dormancy, often requiring darkness and low temperatures for germination, and their shoots emerge in early spring, thus avoiding the competition for light from canopy species. These species are separated into two groups: autumn and late winter germinators. The third strategy is defined by open-forest plants with a preference for gaps, forest edges and riparian forests. They tend to have physiological seed dormancy and germinate in light and at higher temperatures, so their seedlings emerge in spring or summer. Conclusion Seed germination traits are fundamental to which species are good or poor colonizers of the temperate forest understorey and could provide a finer explanation than adult plant traits of species distribution patterns. Seed dormancy type, temperature stratification and light requirements for seed germination are important drivers of forest floor colonization patterns and should be taken in account when planning successful ecological recovery of temperate woodland understories. [ABSTRACT FROM AUTHOR]

Published

2022

20. Quantifying and mapping angiosperm endemism in the Araucaria Forest.

Author

Dornelles, Mariane Paludette, Heiden, Gustavo, Lughadha, Eimear Nic, and Iganci, João

Subjects

CURRENT distribution, SPECIES diversity, DATA distribution, TROPICAL plants, MIXED forests

Abstract

Neotropical forests are home to exceptional biodiversity, especially along the eastern coast of tropical and subtropical South America. In the Atlantic Forest, the subtropical Araucaria Forest harbours both tropical and temperate plant lineages. Is the presence of Araucaria angustifolia the only attribute characterizing the south-eastern South American Araucaria Forest, or is this formation also defined by the co-occurrence of other endemic species? To answer this question, we revisited the history of this vegetation from published lists and from the current distribution data of angiosperm species. We aimed to identify species endemic to the Araucaria Forest, and to analyse areas of endemism, species richness and occurrence records across the study area. The taxa reported were classified as endemic, near-endemic or non-endemic. A list of 52 endemic taxa and 28 near-endemics was built from public databases and refined. Our results indicate that the eastern region of the southern plateau between the states of Rio Grande do Sul and Santa Catarina has the highest endemism diversity. We suggest that complex interactions are involved in the origin of endemism and that lineages represented in the list of endemic species may contain key taxa for future understanding these drivers in space and time. [ABSTRACT FROM AUTHOR]

Published

2022

21. rise and fall of Neotropical biodiversity.

Author

Antonelli, Alexandre

Subjects

BIODIVERSITY conservation, LONG-Term Evolution (Telecommunications), ENVIRONMENTAL degradation, CONSERVATION & restoration, CLIMATE change, BIODIVERSITY, INTRODUCED species

Abstract

The exceptional levels of biodiversity found today in the American tropics are the outcome of tens of millions of years of evolution, shaped by the tumultuous geological history of the region, its heterogeneous habitats, climate change, ecological interactions and, in recent millennia, human influence. Although our understanding of diversity patterns and their underlying processes grows steadily in breadth and depth, Neotropical biodiversity is rapidly breaking down. Here, I contrast the long-term evolution of Neotropical biodiversity with its recent and rapid deterioration due to anthropogenic factors. I consider the impacts of the early arrival of humans to the region and the modern intensification of land-use change (primarily driven by agriculture) and other drivers of biodiversity loss, such as direct exploitation, invasive species and climate change. Together, these threats have led to 33% of all Neotropical species for which sufficient data are available being currently threatened with extinction. I outline emerging opportunities for conservation and restoration under the post-2020 Global Biodiversity Framework and call for urgent action from the biodiversity community, for the benefit of people and nature. [ABSTRACT FROM AUTHOR]

Published

2022

22. From Avicennia to Zizania: Seed Recalcitrance in Perspective.

Author

Berjak, Patricia and Pammenter, N. W.

Subjects

SHRUBS, ZIZANIA latifolia, GRASSES, SEEDS, PLANT species, WATER, PLANT-water relationships

Abstract

Background: Considered only in terms of tolerance of, or sensitivity to, desiccation (which is an oversimplification), orthodox seeds are those which tolerate dehydration and are storable in this condition, while highly recalcitrant seeds are damaged by loss of only a small proportion of water and are unstorable for practical purposes. Between these extremes, however, there may be a gradation of the responses to dehydration – and also to other factors – suggesting perhaps that seed behaviour might be best considered as constituting a continuum subtended by extreme orthodoxy and the highest degree of recalcitrance. As the characteristics of seeds of an increasing number of species are elucidated, non-orthodox seed behaviour is emerging as considerably more commonplace – and its basis far more complex – than previously suspected. [ABSTRACT FROM PUBLISHER]

Published

2008

23. Prediction of Desiccation Sensitivity in Seeds of Woody Species: A Probabilistic Model Based on Two Seed Traits and 104 Species.

Author

DAWS, M. I., GARWOOD, N. C., and PRITCHARD, H. W.

Subjects

PLANT species, SEEDS, WOODY plants, LOGISTIC regression analysis, RAINFALL

Abstract

• Background and Aims Seed desiccation sensitivity limits the ex situ conservation of up to 47 % of plant species, dependent on habitat. Whilst desirable, empirically determining desiccation tolerance levels in seeds of all species is unrealistic. A probabilistic model for the rapid identification of woody species at high risk of displaying seed desiccation sensitivity is presented.• Methods The model was developed using binary logistic regression on seed trait data [seed mass, moisture content, seed coat ratio (SCR) and rainfall in the month of seed dispersal] for 104 species from 37 families from a semi-deciduous tropical forest in Panamá.• Key Results For the Panamanian species, only seed mass and SCR were significantly related to the response to desiccation, with the desiccation-sensitive seeds being large and having a relatively low SCR (i.e. thin ‘seed’ coats). Application of this model to a further 38 species, of known seed storage behaviour, from two additional continents and differing vegetation types (dryland Africa and temperate Europe) correctly predicted the response to desiccation in all cases, and resolved conflicting published data for two species (Acer pseudoplatanus and Azadirachta indica).• Conclusions This model may have application as a decision-making tool in the handling of species of unknown seed storage behaviour in species from three disparate habitats. [ABSTRACT FROM AUTHOR]

Published

2006

24. quantitative analysis of temperature-dependent seasonal dormancy cycling in buried Arabidopsis thaliana seeds can predict seedling emergence in a global warming scenario.

Author

Batlla, Diego, Malavert, Cristian, Farnocchia, Rocío Belén Fernández, Footitt, Steven, Benech-Arnold, Roberto Luis, and Finch-Savage, William E

Subjects

GLOBAL warming, ARABIDOPSIS thaliana, GERMINATION, SEEDS, SOIL temperature, SEASONS

Abstract

Understanding how the environment regulates seed-bank dormancy changes is essential for forecasting seedling emergence in actual and future climatic scenarios, and to interpret studies of dormancy mechanisms at physiological and molecular levels. Here, we used a population threshold modelling approach to analyse dormancy changes through variations in the thermal range permissive for germination in buried seeds of Arabidopsis thaliana Cvi, a winter annual ecotype. Results showed that changes in dormancy level were mainly associated with variations in the higher limit of the thermal range permissive for germination. Changes in this limit were positively related to soil temperature during dormancy release and induction, and could be predicted using thermal time. From this, we developed a temperature-driven simulation to predict the fraction of the seed bank able to germinate in a realistic global warming scenario that approximated seedling emergence timing. Simulations predicted, in accordance with seedling emergence observed in the field, an increase in the fraction of the seed bank able to emerge as a result of global warming. In addition, our results suggest that buried seeds perceive changes in the variability of the mean daily soil temperature as the signal to change between dormancy release and induction according to the seasons. [ABSTRACT FROM AUTHOR]

Published

2022

25. Does oxygen affect ageing mechanisms of Pinus densiflora seeds? A matter of cytoplasmic physical state.

Author

Gerna, Davide, Ballesteros, Daniel, Arc, Erwann, Stöggl, Wolfgang, Seal, Charlotte E, Marami-Zonouz, Nicki, Na, Chae Sun, Kranner, Ilse, and Roach, Thomas

Subjects

GLUTAMATE decarboxylase, SEEDS, PINE, HUMIDITY, OXYGEN, PHYTOCHELATINS, ORNITHINE decarboxylase

Abstract

During desiccation, the cytoplasm of orthodox seeds solidifies into an intracellular glass with highly restricted diffusion and molecular mobility. Temperature and water content govern seed ageing rates, while oxygen (O2) can promote deteriorative reactions. However, whether the cytoplasmic physical state affects involvement of O2 in seed ageing remains unresolved. We aged Pinus densiflora seeds by controlled deterioration (CD) at 45 °C and distinct relative humidity (RH), resulting in cells with a glassy (11% and 30% RH) or fluid (60% and 80% RH) cytoplasm. Hypoxic conditions (0.4% O2) during CD delayed seed deterioration, lipid peroxidation, and decline of antioxidants (glutathione, α-tocopherol, and γ-tocopherol), but only when the cytoplasm was glassy. In contrast, when the cytoplasm was fluid, seeds deteriorated at the same rate regardless of O2 availability, while being associated with limited lipid peroxidation, detoxification of lipid peroxide products, substantial loss of glutathione, and resumption of glutathione synthesis. Changes in metabolite profiles provided evidence of other O2-independent enzymatic reactions in a fluid cytoplasm, including aldo-keto reductase and glutamate decarboxylase activities. Biochemical profiles of seeds stored under seed bank conditions resembled those obtained after CD regimes that maintained a glassy cytoplasm. Overall, O2 contributed more to seed ageing when the cytoplasm was glassy, rather than fluid. [ABSTRACT FROM AUTHOR]

Published

2022

26. Regional gradients in intraspecific seed mass variation are associated with species biotic attributes and niche breadth.

Author

Kang, Xiaomei, Zhou, Jieyang, Abuman, Liu, Yanjun, Zhang, Shiting, Liu, Wei, Bu, Haiyan, and Qi, Wei

Subjects

POLLINATION, SEED dispersal, SPECIES, SEED development, SEEDS, ECOLOGICAL niche, DISPERSAL (Ecology), COEVOLUTION

Abstract

Quantifying intraspecific trait variation (ITV) is crucial for understanding species local adaptation and regional distribution. Intraspecific seed mass variation (ITVsm) is expected to vary with environmental gradients or co-vary with related biotic attributes, but these relationships are not well known in a multispecies space. We performed interspecific and phylogenetic analyses to evaluate the relative power of three species biotic attributes and four niche breadth traits in explaining ITVsm variation for 434 eastern Qinghai–Tibetan species. We showed a positive relationship between species' ITVsm and their niche breadth in the light, moisture and disturbance dimensions, supporting the idea that high ITV allows species to match their traits to different habitat conditions and thus to distribute in a wide range of environments. However, we did find significant direct effect of species' thermal niche on individual seed mass variation. Meanwhile, we showed significant effects of seed dispersal mode, but not of life form and pollination type, on ITVsm. This suggests that the covariation or co-evolution between seed and disperser was related to the pattern and magnitude of ITVsm, but not to plant lifespan, the quality and allocation pattern of available resources and the availability of pollination vector. Lastly, all multivariate models showed a significant combined contribution of species' biotic attributes and niche breadth to their ITVsm, implying that intrinsic biotic limitations and extrinsic abiotic pressures may operate simultaneously in controlling regional-scale intraspecific seed development. [ABSTRACT FROM AUTHOR]

Published

2022

27. Xyloglucan remodelling enzymes and the mechanics of plant seed and fruit biology.

Author

Steinbrecher, Tina and Leubner-Metzger, Gerhard

Subjects

FRUIT seeds, PLANT enzymes, PLANT mechanics, BIOLOGY

Published

2022

28. Differential response of the photosynthetic machinery to dehydration in older and younger resurrection plants.

Author

Oung, Hui Min Olivia, Mukhopadhyay, Roma, Svoboda, Vaclav, Charuvi, Dana, Reich, Ziv, and Kirchhoff, Helmut

Subjects

CYTOCHROME b, VASCULAR plants, DEHYDRATION, ELECTRON transport

Abstract

A group of vascular plants called homoiochlorophyllous resurrection plants evolved unique capabilities to protect their photosynthetic machinery against desiccation-induced damage. This study examined whether the ontogenetic status of the resurrection plant Craterostigma pumilum has an impact on how the plant responds to dehydration at the thylakoid membrane level to prepare cells for the desiccated state. Thus, younger plants (<4 months) were compared with their older (>6 months) counterparts. Ultrastructural analysis provided evidence that younger plants suppressed senescence-like programs that are realized in older plants. During dehydration, older plants degrade specific subunits of the photosynthetic apparatus such as the D1 subunit of PSII and subunits of the cytochrome b 6 f complex. The latter leads to a controlled down-regulation of linear electron transport. In contrast, younger plants increased photoprotective high-energy quenching mechanisms and maintained a high capability to replace damaged D1 subunits. It follows that depending on the ontogenetic state, either more degradation-based or more photoprotective mechanisms are employed during dehydration of Craterostigma pumilum. [ABSTRACT FROM AUTHOR]

Published

2022

29. Seed ecology of European mesic meadows.

Author

Fernández-Pascual, Eduardo, Vaz, Madalena, Morais, Beatriz, Reiné, Ramón, Ascaso, Joaquín, Khouri, Elías Afif, and Carta, Angelino

Subjects

GERMINATION, MEADOWS, SEEDS, HERBACEOUS plants, SEED dormancy, RESTORATION ecology, WILDLIFE reintroduction, PLANT communities

Abstract

Background and Aims European mesic meadows are semi-natural open habitats of high biodiversity and an essential part of European landscapes. These species-rich communities can be a source of seed mixes for ecological restoration, urban greening and rewilding. However, limited knowledge of species germination traits is a bottleneck to the development of a competitive native seed industry. Here, we synthesize the seed ecology of mesic meadows. Methods We combined our own experimental data with data obtained from databases to create a combined dataset containing 2005 germination records of 90 plant species from 31 European countries. We performed a Bayesian meta-analysis of this dataset to test the seed germination response to environmental cues including scarification, stratification, temperature, alternating temperature and light. We also used multivariate ordination to check the relationship between seed traits (germination and morphology) and species ecological preferences, and to compare the seed ecology of mesic meadows with that of other herbaceous plant communities from the same geographic area. Key Results The seed ecology of mesic meadows is characterized by (1) high seed germinability when compared with other herbaceous plant communities; (2) low correspondence between seed traits and species ecological preferences; and (3) a deep phylogenetic separation between the two major families, Poaceae and Fabaceae. Poaceae produce many light seeds that respond to gap-detecting germination cues (alternating temperatures and light); Fabaceae produce fewer heavy seeds, which need scarification to break their physical dormancy. Conclusions High germinability of meadow seeds will reduce their capacity to form persistent seed banks, resulting in dispersal limitations to passive regeneration. For centuries, human activities have shaped the regeneration of meadows, leading to a loss of seed dormancy and decoupling seeds from seasonal cycles, as has been found in many domesticated species. The same anthropic processes that have shaped semi-natural mesic meadows have left them dependent on continued human intervention for their regeneration, highlighting the importance of active restoration via seed supply. [ABSTRACT FROM AUTHOR]

Published

2022

30. Plant growth, physiological variation and homological relationship of Cyclocarya species in ex situ conservation.

Author

Feng, Ying, Zheng, Kailing, Lin, Xiulian, and Huang, Junpo

Subjects

MICROSATELLITE repeats, METABOLITES, POLYPHENOL oxidase, LEAF anatomy, SUPEROXIDE dismutase

Abstract

Natural forests of Cyclocarya paliurus have been seriously damaged because of the extreme demand for leaf medicinal uses, making conservation of this valuable, medicinal woody species necessary. Because of geographical differentiation and diverse adaptability, in this study we analysed the variations in plant growth and physiological response to environmental factors at a resource plantation of ex situ conservation and determined the homological relationships between local provenance (from Fujian Province, FJ) and introduced provenances showing high-survival rate and better growth (from Zhejiang, Hubei, Guizhou and Jiangxi Province). Our results suggested the following: (i) Plant growth: FJ had the highest plant height but not the largest basal diameter in comparison to that of other provenances. (ii) Physiological responses during the growth periods: water content in leaf of FJ had similar change with that of other provenances, except for the provenance from Guizhou Province; total soluble sugar content in leaf of FJ was more than that of other provenances; calcium content in leaf of all provenances was higher as compared to K, Mg and Na; the highest activity among four kinds of antioxidant enzymes in all provenances was superoxide dismutase, then was polyphenol oxidase and peroxidase, finally was catalase; and total flavonoid among three kinds of secondary metabolites in all provenances showed the greatest content, followed by polysaccharides and total triterpenoid. (iii) Relation analysis: plant growth and physiological responses related with environmental factors, especially temperature and precipitation. (iv) Homological relationships: leaf characteristics among six provenances varied in colour, area and common petiole length, but not the shape of leaf base or apex. Cyclocarya paliurus distributed in Fujian Province showed a very close homological relationship with that distributed in Zhejiang Province by simple sequence repeat. These findings will provide knowledge on physiological response to environmental factors and aid to select suitable provenances for Cyclocarya cultivation. [ABSTRACT FROM AUTHOR]

Published

2022

31. Drying banana seeds for ex situ conservation.

Author

Kallow, Simon, Zuluaga, Manuela Garcia, Sleziak, Natalia Fanega, Nugraha, Bayu, Mertens, Arne, Janssens, Steven B, Gueco, Lavernee, Valle-Descalsota, Michelle Lyka, Vu, Tuong Dang, Vu, Dang Toan, Li, Loan Thi, Vandelook, Filip, Dickie, John B, Verboven, Pieter, Swennen, Rony, and Panis, Bart

Subjects

BANANAS, PLANTAIN banana, SEEDS, TETRAZOLIUM chloride, SEED viability, HUMIDITY

Abstract

The ability of seeds to withstand drying is fundamental to ex situ seed conservation but drying responses are not well known for most wild species including crop wild relatives. We look at drying responses of seeds of Musa acuminata and Musa balbisiana , the two primary wild relatives of bananas and plantains, using the following four experimental approaches: (i) We equilibrated seeds to a range of relative humidity (RH) levels using non-saturated lithium chloride solutions and subsequently measured moisture content (MC) and viability. At each humidity level we tested viability using embryo rescue (ER), tetrazolium chloride staining and germination in an incubator. We found that seed viability was not reduced when seeds were dried to 4% equilibrium relative humidity (eRH; equating to 2.5% MC). (ii) We assessed viability of mature and less mature seeds using ER and germination in the soil and tested responses to drying. Findings showed that seeds must be fully mature to germinate and immature seeds had negligible viability. (iii) We dried seeds extracted from ripe/unripe fruit to 35–40% eRH at different rates and tested viability with germination tests in the soil. Seeds from unripe fruit lost viability when dried and especially when dried faster; seeds from ripe fruit only lost viability when fast dried. (iv) Finally, we dried and re-imbibed mature and less mature seeds and measured embryo shrinkage and volume change using X-ray computer tomography. Embryos of less mature seeds shrank significantly when dried to 15% eRH from 0.468 to 0.262 mm3, but embryos of mature seeds did not. Based on our results, mature seeds from ripe fruit are desiccation tolerant to moisture levels required for seed genebanking but embryos from immature seeds are mechanistically less able to withstand desiccation, especially when water potential gradients are high. [ABSTRACT FROM AUTHOR]

Published

2022

32. Characteristics and functions of glyceraldehyde 3-phosphate dehydrogenase S-nitrosylation during controlled aging of elm and Arabidopsis seeds.

Author

Zeng, MeiYan, He, YuQi, Gao, Xue, Wang, Yu, Deng, ShiMing, Ye, TianTian, Wang, XiaoFeng, and Xue, Hua

Subjects

GLYCERALDEHYDEPHOSPHATE dehydrogenase, PROTEIN S, ARABIDOPSIS proteins, FLUORESCENT proteins, CELL death, SEEDS, SEED aging

Abstract

Seed aging is the gradual decline in seed vigor, during which programmed cell death (PCD) occurs. The functions of nitric oxide (NO) are exerted through protein S -nitrosylation, a reversible post-translational modification. During seed aging, more than 80 proteins are S -nitrosylated, but the particular role of individual proteins is unknown. Here, we showed that the S -nitrosylation level of glyceraldehyde 3-phosphate dehydrogenase (UpGAPDH) in elm (Ulmus pumila L.) seeds increased after controlled deterioration treatment. UpGAPDH was S -nitrosylated at Cys154 during S -nitrosoglutathione (GSNO) treatment, and its oligomerization was triggered both in vitro and in elm seeds. Interestingly, UpGAPDH interacted with the mitochondrial voltage-dependent anion channel in an S -nitrosylation-dependent way. Some UpGAPDH–green fluorescent protein in Arabidopsis protoplasts co-localized with mitochondria during the GSNO treatment, while the S -nitrosylation-defective UpGAPDH C154S–GFP protein did not. Seeds of oxUpGAPDH lines showed cell death and lost seed vigor rapidly during controlled deterioration treatment-triggered seed aging, while those overexpressing S -nitrosylation-defective UpGAPDH-Cys154 did not. Our results suggest that S -nitrosylation of UpGAPDH may accelerate cell death and seed deterioration during controlled deterioration treatment. These results provide new insights into the effects of UpGAPDH S -nitrosylation on protein interactions and seed aging. [ABSTRACT FROM AUTHOR]

Published

2021

33. Seed morphological traits as a tool to quantify variation maintained in ex situ collections: a case study in Pinus torreyana.

Author

Santo, Lionel N Di, Polgar, Monica, Nies, Storm, Hodgkiss, Paul, Canning, Courtney A, Wright, Jessica W, and Hamilton, Jill A

Subjects

SEED harvesting, PINE, GENETIC variation, PLANT conservation, SEED size, VARIANCES

Abstract

Understanding the within- and among-population distribution of trait variation within seed collections may provide a means to approximate standing genetic variation and inform plant conservation. This study aimed to estimate population- and family-level seed trait variability for existing seed collections of Torrey pine (Pinus torreyana), and to use these data to guide sampling of future collections. We quantified variation in 14 seed morphological traits and seedling emergence within and among Torrey pine populations. Using a simulation-based approach, we used estimates of within-population variance to assess the number of maternal families required to capture 95 % of trait variation within each existing seed collection. Substantial structure was observed both within and among Torrey pine populations, with island and mainland seeds varying in seed size and seed coat thickness. Despite morphological differences, seedling emergence was similar across populations. Simulations revealed that 83 % and 71 % of all maternal families within island and mainland seed collections respectively needed to be resampled to capture 95 % of seed trait variation within existing collections. From a conservation perspective, our results indicate that to optimize genetic diversity captured in Torrey pine seed collections, maximizing the number of maternal families sampled within each population will be necessary. [ABSTRACT FROM AUTHOR]

Published

2021

34. Molecular Clocks and Archeogenomics of a Late Period Egyptian Date Palm Leaf Reveal Introgression from Wild Relatives and Add Timestamps on the Domestication.

Author

Pérez-Escobar, Oscar A, Bellot, Sidonie, Przelomska, Natalia A S, Flowers, Jonathan M, Nesbitt, Mark, Ryan, Philippa, Gutaker, Rafal M, Gros-Balthazard, Muriel, Wells, Tom, Kuhnhäuser, Benedikt G, Schley, Rowan, Bogarín, Diego, Dodsworth, Steven, Diaz, Rudy, Lehmann, Manuela, Petoe, Peter, Eiserhardt, Wolf L, Preick, Michaela, Hofreiter, Michael, and Hajdas, Irka

Subjects

DATE palm, FOSSIL DNA, GENE flow, PALMS, EVOLUTIONARY theories

Abstract

The date palm, Phoenix dactylifera , has been a cornerstone of Middle Eastern and North African agriculture for millennia. It was first domesticated in the Persian Gulf, and its evolution appears to have been influenced by gene flow from two wild relatives, P. theophrasti , currently restricted to Crete and Turkey, and P. sylvestris , widespread from Bangladesh to the West Himalayas. Genomes of ancient date palm seeds show that gene flow from P. theophrasti to P. dactylifera may have occurred by ∼2,200 years ago, but traces of P. sylvestris could not be detected. We here integrate archeogenomics of a ∼2,100-year-old P. dactylifera leaf from Saqqara (Egypt), molecular-clock dating, and coalescence approaches with population genomic tests, to probe the hybridization between the date palm and its two closest relatives and provide minimum and maximum timestamps for its reticulated evolution. The Saqqara date palm shares a close genetic affinity with North African date palm populations, and we find clear genomic admixture from both P. theophrasti , and P. sylvestris , indicating that both had contributed to the date palm genome by 2,100 years ago. Molecular-clocks placed the divergence of P. theophrasti from P. dactylifera / P. sylvestris and that of P. dactylifera from P. sylvestris in the Upper Miocene, but strongly supported, conflicting topologies point to older gene flow between P. theophrasti and P. dactylifera , and P. sylvestris and P. dactylifera. Our work highlights the ancient hybrid origin of the date palms, and prompts the investigation of the functional significance of genetic material introgressed from both close relatives, which in turn could prove useful for modern date palm breeding. [ABSTRACT FROM AUTHOR]

Published

2021

35. Cell wall thickness and composition are involved in photosynthetic limitation.

Author

Flexas, Jaume, Clemente-Moreno, María J, Bota, Josefina, Brodribb, Tim J, Gago, Jorge, Mizokami, Yusuke, Nadal, Miquel, Perera-Castro, Alicia V, Roig-Oliver, Margalida, Sugiura, Daisuke, Xiong, Dongliang, and Carriquí, Marc

Subjects

PECTINS, LEAF anatomy

Abstract

The key role of cell walls in setting mesophyll conductance to CO2 (g m) and, consequently, photosynthesis is reviewed. First, the theoretical properties of cell walls that can affect g m are presented. Then, we focus on cell wall thickness (T cw) reviewing empirical evidence showing that T cw varies strongly among species and phylogenetic groups in a way that correlates with g m and photosynthesis; that is, the thicker the mesophyll cell walls, the lower the g m and photosynthesis. Potential interplays of g m, T cw, dehydration tolerance, and hydraulic properties of leaves are also discussed. Dynamic variations of T cw in response to the environment and their implications in the regulation of photosynthesis are discussed, and recent evidence suggesting an influence of cell wall composition on g m is presented. We then propose a hypothetical mechanism for the influence of cell walls on photosynthesis, combining the effects of thickness and composition, particularly pectins. Finally, we discuss the prospects for using biotechnology for enhancing photosynthesis by altering cell wall-related genes. [ABSTRACT FROM AUTHOR]

Published

2021

36. Seed longevity of maize conserved under germplasm bank conditions for up to 60 years.

Author

Guzzon, Filippo, Gianella, Maraeva, Juarez, Jose Alejandro Velazquez, Cano, Cesar Sanchez, and Costich, Denise E

Subjects

SEED viability, PLANT germplasm, CORN seeds, GERMPLASM, CORN, SEED storage

Abstract

Background and Aims The long-term conservation of seeds of plant genetic resources is of key importance for food security and preservation of agrobiodiversity. Nevertheless, there is scarce information available about seed longevity of many crops under germplasm bank conditions. Methods Through germination experiments as well as the analysis of historical monitoring data, we studied the decline in viability manifested by 1000 maize (Zea mays subsp. mays) seed accessions conserved for an average of 48 years at the CIMMYT germplasm bank, the largest maize seedbank in the world, under two cold storage conditions: an active (–3 °C; intended for seed distribution) and a base conservation chamber (–15 °C; for long-term conservation). Key Results Seed lots stored in the active chamber had a significantly lower and more variable seed germination, averaging 81.4 %, as compared with the seed lots conserved in the base chamber, averaging 92.1 %. The average seed viability detected in this study was higher in comparison with that found in other seed longevity studies on maize conserved under similar conditions. A significant difference was detected in seed germination and longevity estimates (e.g. p85 and p50) among accessions. Correlating seed longevity with seed traits and passport data, grain type showed the strongest correlation, with flint varieties being longer lived than floury and dent types. Conclusions The more rapid loss of seed viability detected in the active chamber suggests that the seed conservation approach, based on the storage of the same seed accessions in two chambers with different temperatures, might be counterproductive for overall long-term conservation and that base conditions should be applied in both. The significant differences detected in seed longevity among accessions underscores that different viability monitoring and regeneration intervals should be applied to groups of accessions showing different longevity profiles. [ABSTRACT FROM AUTHOR]

Published

2021

37. The effect of temperature changes and K supply on the reproduction and growth of Bolboschoenus planiculmis.

Author

Liu, Ying, Bachofen, Christoph, Lou, Yanjing, Ding, Zhi, Jiang, Ming, Lü, Xianguo, and Buchmann, Nina

Subjects

TEMPERATURE effect, NONPOINT source pollution, HIGH temperatures, ATMOSPHERIC temperature, GLOBAL warming

Abstract

Aims Climate warming and agricultural non-point source pollution both resulting from anthropogenic activities have been projected to affect plant reproduction and growth in wetlands worldwide. In order to predict and mitigate impacts of these anthropogenic activities, it is important to investigate how marsh plants respond to such environmental changes. Methods In this study, Bolboschoenus planiculmis , a tuberous sedge with a wide distribution range in Eurasia, was selected to examine the effect of air temperature changes (15, 20 and 25 °C over 24 h; 20/10 and 30/15 °C, day/night) and K supply (0, 1, 3, 9 and 18 mmol/L) on its reproductive and growth traits in climate chambers. Important Findings We found that high constant temperatures (20 and 25 °C) were more beneficial for tuberization of B. planiculmis than high alternating temperatures (30/15 °C), whereas aboveground biomass and shoot height were generally largest at high temperatures (30/15 and 25 °C). Both reproductive and growth traits of B. planiculmis showed hump-shaped relationships with K supply, with an optimum K concentration of around 1–3 mmol/L. The combination of high constant temperatures and optimal K concentrations promoted reproductive traits the most, whereas the combination of higher temperatures (30/15 and 25 °C) and K concentrations up to 9 mmol/L increased growth traits only. We therefore conclude that population abundance of B. planiculmis might benefit from global warming and the additional K supply. [ABSTRACT FROM AUTHOR]

Published

2021

38. Ageing beautifully: can the benefits of seed priming be separated from a reduced lifespan trade-off?

Author

Fabrissin, Isabelle, Sano, Naoto, Seo, Mitsunori, and North, Helen M

Subjects

SEED technology, SEEDS, SEED viability, GERMINATION, FARM produce warehouses, SEED dormancy, LONGEVITY

Abstract

Germination performance is affected following seed exposure to a combination of temperature fluctuations and cycles of hydration and dehydration. This has long been exploited in a seed technology termed priming, which increases germination speed and seedling vigour, but these benefits have often been associated with effects on seed lifespan, or longevity, with conflicting evidence for positive and negative effects. Seed longevity is a key seed trait influencing not only the storage of commercial stocks but also in situ and ex situ seed conservation. In the context of increasingly variable environmental conditions faced by both crops and wild species, this has led to renewed interest in understanding the molecular factors that underlie priming. Here, we provide an overview of the literature relating to the effect of priming on seed lifespan, and catalogue the different parameters used for priming treatments and their consequences on longevity for a range of species. Our current limited understanding of the molecular basis for priming effects is also outlined, with an emphasis on recent advances and promising approaches that should lead towards the application and monitoring of the priming process in a less empirical manner. [ABSTRACT FROM AUTHOR]

Published

2021

39. What is dry? Exploring metabolism and molecular mobility at extremely low water contents.

Author

Farrant, Jill M and Hilhorst, Henk W M

Subjects

BOTANY

Abstract

Journal of Experimental Botany 72, 1576-1588 Desiccation tolerance is defined as 'the ability of tissues to survive loss of 95% of cellular water or dehydration to tissue water contents of <=0.1 g H 2 O g -1 dry mass (DM)'. These were enabled by the presence of a group 6 late embryogenesis abundant (LEA) protein, which is present only in desiccation-tolerant seeds and in the vegetative tissues of desiccation-tolerant angiosperms. As typified in desiccation-tolerant Xerophyta species, such species tend to have numerous small vacuoles containing potentially NaDES-forming compatible solutes and have relatively rigid cell walls, in this regard being "seed like". The nature of the degree of subcellular stabilization realized is highly likely to be related to organ or tissue function (e.g. seed or vegetative tissues) and the environmental niche. [Extracted from the article]

Published

2021

40. How dry is dry? Molecular mobility in relation to thallus water content in a lichen.

Author

Carniel, Fabio Candotto, Fernandez-Marín, Beatriz, Arc, Erwann, Craighero, Teresa, Laza, José Manuel, Incerti, Guido, Tretiach, Mauro, and Kranner, Ilse

Subjects

XANTHOPHYLLS, THALLUS, LICHENS, DYNAMIC mechanical analysis, CHEMICAL reactions, HIGH performance liquid chromatography

Abstract

Lichens can withstand extreme desiccation to water contents of ≤ 0.1 g H2O g–1 DW, and in the desiccated state are among the most extremotolerant organisms known. Desiccation-tolerant life-forms such as seeds, mosses and lichens survive 'vitrification', that is the transition of their cytoplasm to a 'glassy' state, which causes metabolism to cease. However, our understanding of the mechanisms of desiccation tolerance is hindered by poor knowledge of what reactions occur in the desiccated state. Using Flavoparmelia caperata as a model lichen, we determined at what water contents vitrification occurred upon desiccation. Molecular mobility was assessed by dynamic mechanical thermal analysis, and the de- and re-epoxidation of the xanthophyll cycle pigments (measured by HPLC) was used as a proxy to assess enzyme activity. At 20 °C vitrification occurred between 0.12–0.08 g H2O g−1 DW and enzymes were active in a 'rubbery' state (0.17 g H2O g−1 DW) but not in a glassy state (0.03 g H2O g−1 DW). Therefore, desiccated tissues may appear to be 'dry' in the conventional sense, but subtle differences in water content will have substantial consequences on the types of (bio)chemical reactions that can occur, with downstream effects on longevity in the desiccated state. [ABSTRACT FROM AUTHOR]

Published

2021

41. Functional seed traits and germination patterns predict species coexistence in Northeast Mediterranean foredune communities.

Author

Vecchio, Silvia Del, Mattana, Efisio, Ulian, Tiziana, and Buffa, Gabriella

Subjects

GERMINATION, COEXISTENCE of species, BIOTIC communities, ECOLOGICAL niche, PLANT anatomy, PLANT species, PLANT communities

Abstract

Background and Aims The structure of plant communities, which is based on species abundance ratios, is closely linked to ecosystem functionality. Seed germination niche plays a major role in shaping plant communities, although it has often been neglected when explaining species coexistence. The aim of this work is to link the seed germination niche to community ecology, investigating how functional seed traits contribute to species coexistence. Methods Species selection was based on a database of 504 vegetation surveys from the Veneto coast (Italy). Through cluster analysis we identified the foredune community and selected all of its 19 plant species. By using the 'Phi coefficient' and frequency values, species were pooled in different categories (foundation species, accidental species of the semi-fixed dune and aliens), then the 19 species were grouped according to their germination responses to temperature and photoperiod through cluster analyses. For each germination cluster, we investigated germination trends against temperature and photoperiod by using generalized linear mixed models. Key Results We identified four germination strategies: (1) high germination under all tested conditions ('high-germinating'); (2) high germination at warm temperatures in the dark ('dark warm-cued'); (3) high germination at warm temperatures in the light ('light warm-cued'); and (4) low germination, regardless of conditions ('low-germinating'). Foredune foundation species showed a narrow germination niche, being 'low-germinating' or 'dark warm-cued'. Annual species of semi-fixed dunes were 'high-germinating', while alien species were the only members of the 'light warm-cued' cluster. Conclusions Our research suggests that different categories of species have dissimilar seed germination niches, which contributes to explaining their coexistence. Climatic events, such as rising temperature, could alter germination patterns, favouring seed regeneration of certain categories (i.e. alien and semi-fixed dune species) at the expense of others (i.e. foundation species, pivotal to ecosystem functioning), and hence potentially altering the plant community structure. [ABSTRACT FROM AUTHOR]

Published

2021

42. The uncoupling of respiration in plant mitochondria: keeping reactive oxygen and nitrogen species under control.

Author

Popov, Vasily N, Syromyatnikov, Mikhail Y, Fernie, Alisdair R, Chakraborty, Subhra, Gupta, Kapuganti Jagadis, and Igamberdiev, Abir U

Subjects

REACTIVE oxygen species, RESPIRATION in plants, NAD(P)H dehydrogenases, PLANT mitochondria, UNCOUPLING proteins, PLANT metabolism, PLANT adaptation

Abstract

Plant mitochondrial respiration involves the operation of various alternative pathways. These pathways participate, both directly and indirectly, in the maintenance of mitochondrial functions though they do not contribute to energy production, being uncoupled from the generation of an electrochemical gradient across the mitochondrial membrane and thus from ATP production. Recent findings suggest that uncoupled respiration is involved in reactive oxygen species (ROS) and nitric oxide (NO) scavenging, regulation, and homeostasis. Here we discuss specific roles and possible functions of uncoupled mitochondrial respiration in ROS and NO metabolism. The mechanisms of expression and regulation of the NDA-, NDB- and NDC-type non-coupled NADH and NADPH dehydrogenases, the alternative oxidase (AOX), and the uncoupling protein (UCP) are examined in relation to their involvement in the establishment of the stable far-from-equilibrium state of plant metabolism. The role of uncoupled respiration in controlling the levels of ROS and NO as well as inducing signaling events is considered. Secondary functions of uncoupled respiration include its role in protection from stress factors and roles in biosynthesis and catabolism. It is concluded that uncoupled mitochondrial respiration plays an important role in providing rapid adaptation of plants to changing environmental factors via regulation of ROS and NO. [ABSTRACT FROM AUTHOR]

Published

2021

43. Nitric oxide, other reactive signalling compounds, redox, and reductive stress.

Author

Hancock, John T and Veal, David

Subjects

NITRIC oxide, REACTIVE nitrogen species, OXIDATION-reduction reaction, REACTIVE oxygen species, OXIDATIVE stress

Abstract

Nitric oxide (NO) and other reactive nitrogen species (RNS) are key signalling molecules in plants, but they do not work in isolation. NO is produced in cells, often increased in response to stress conditions, but many other reactive compounds used in signalling are generated and accumulate spatially and temporally together. This includes the reactive oxygen species (ROS), such as hydrogen peroxide (H2O2), and hydrogen sulfide (H2S). Here, the interactions with such other reactive molecules is briefly reviewed. Furthermore, along with ROS and H2S, NO will potentially contribute to the overall intracellular redox of the cell. However, RNS will exist in redox couples and therefore the influence of the cellular redox on such couples will be explored. In discussions of the aberrations in intracellular redox it is usually oxidation, so-called oxidative stress, which is discussed. Here, we consider the notion of reductive stress and how this may influence the signalling which may be mediated by NO. By getting a more holistic view of NO biology, the influence on cell activity of NO and other RNS can be more fully understood, and may lead to the elucidation of methods for NO-based manipulation of plant physiology, leading to better stress responses and improved crops in the future. [ABSTRACT FROM AUTHOR]

Published

2021

44. Predicting effects of warming requires a whole-of-life cycle perspective: a case study in the alpine herb Oreomyrrhis eriopoda.

Author

Satyanti, Annisa, Liantoro, Toton, Thomas, Morgan, Neeman, Teresa, Nicotra, Adrienne B, and Guja, Lydia K

Subjects

GERMINATION, PLANT phenology, PLANT life cycles, FLOWER seeds, WILDLIFE conservation, GLOBAL warming

Abstract

Global warming is affecting plant phenology, growth and reproduction in complex ways and is particularly apparent in vulnerable alpine environments. Warming affects reproductive and vegetative traits, as well as phenology, but seldom do studies assess these traits in concert and across the whole of a plant's life cycle, particularly in wild species. Thus, it is difficult to extrapolate from such effects to predictions about the persistence of species or their conservation and management. We assessed trait variation in response to warming in Oreomyrrhis eriopoda , an Australian native montane herb, in which populations vary in germination strategy (degree of dormancy) and growth characteristics as a function of ecological factors. Warming accelerated growth in the early stages of development, particularly for populations with non-dormant seed. The differences in growth disappeared at the transition to reproduction, when an accelerating effect on phenology emerged, to varying degrees depending on germination strategy. Overall, warming reduced flower and seed production and increased mortality, indicating a reduction in reproductive opportunities, particularly for populations with dormant seed. Developmental condition affected germination strategy of the next generation seed, leading to increased degree of dormancy and slowed germination rate. But there were no whole-scale shifts in strategy or total germination percent. Following through the life cycle reveals that warming will have some potentially positive effects (early growth rates) and some negative effects (reduced reproductive output). Ultimately, warming impacts will depend on how those effects play out in the field: early establishment and an accelerated trajectory to seed maturity may offset the tradeoff with overall seed production. Small differences among germination strategies likewise may cascade to larger effects, with important implications for persistence of species in the alpine landscape. Thus, to understand and manage the response of wild species to warming takes a whole-of-life perspective and attention to ecologically significant patterns of within-species variation. [ABSTRACT FROM AUTHOR]

Published

2021

45. Ascorbate glutathione-dependent H2O2 scavenging is an important process in axillary bud outgrowth in rosebush.

Author

Porcher, Alexis, Guérin, Vincent, Montrichard, Françoise, Lebrec, Anita, Lothier, Jérémy, and Vian, Alain

Subjects

REACTIVE oxygen species, BUDS, HYDROGEN peroxide, VITAMIN C

Abstract

Background and Aims Branching is an important mechanism of plant shape establishment and the direct consequence of axillary bud outgrowth. Recently, hydrogen peroxide (H2O2) metabolism, known to be involved in plant growth and development, has been proposed to contribute to axillary bud outgrowth. However, the involvement of H2O2 in this process remains unclear. Methods We analysed the content of H2O2 during bud outgrowth and characterized its catabolism, both at the transcriptional level and in terms of its enzymatic activities, using RT–qPCR and spectrophotometric methods, respectively. In addition, we used in vitro culture to characterize the effects of H2O2 application and the reduced glutathione (GSH) synthesis inhibitor l -buthionine sulfoximine (BSO) on bud outgrowth in relation to known molecular markers involved in this process. Key Results Quiescent buds displayed a high content of H2O2 that declined when bud outgrowth was initiated, as the consequence of an increase in the scavenging activity that is associated with glutathione pathways (ascorbate–glutathione cycle and glutathione biosynthesis); catalase did not appear to be implicated. Modification of bud redox state after the application of H2O2 or BSO prevented axillary bud outgrowth by repressing organogenesis and newly formed axis elongation. Hydrogen peroxide also repressed bud outgrowth-associated marker gene expression. Conclusions These results show that high levels of H2O2 in buds that are in a quiescent state prevents bud outgrowth. Induction of ascorbate–glutathione pathway scavenging activities results in a strong decrease in H2O2 content in buds, which finally allows bud outgrowth. [ABSTRACT FROM AUTHOR]

Published

2020

46. Dormancy cycling is accompanied by changes in ABA sensitivity in Polygonum aviculare seeds.

Author

Laspina, Natalia Verónica, Batlla, Diego, and Benech-Arnold, Roberto Luis

Subjects

POLYGONUM, ABSCISIC acid, SEED dormancy, SEEDS, LOW temperatures, HIGH temperatures

Abstract

Polygonum aviculare seeds show high levels of primary dormancy (PD). Low winter temperatures alleviate dormancy and high spring temperatures induce seeds into secondary dormancy (SD), naturally establishing stable seedbanks cycling through years. The objective of this work was to elucidate the mechanism(s) involved in PD expression and release, and in SD induction in these seeds, and the extent to which abscisic acid (ABA) and gibberellins (GAs) are part of these mechanisms. Quantification of endogenous ABA both prior to and during incubation, and sensitivity to ABA and GAs, were assessed in seeds with contrasting dormancy. Expression analysis was performed for candidate genes involved in hormone metabolism and signaling. It was found that endogenous ABA content does not explain either dormancy release or dormancy induction; moreover, it does not seem to play a role in dormancy maintenance. However, dormancy modifications were commonly accompanied by changes in ABA sensitivity. Concomitantly, induction into SD, but not PD, was characterized by a increased PaABI-5 and PaPYL transcription, and a rise in GA sensitivity as a possible counterbalance effect. These results suggest that dormancy cycling in this species is related to changes in embryo sensitivity to ABA; however, this sensitivity appears to be controlled by different molecular mechanisms in primary and secondary dormant seeds. [ABSTRACT FROM AUTHOR]

Published

2020

47. Temporal patterns of seed germination in early spring-flowering temperate woodland geophytes are modified by warming.

Author

Newton, Rosemary J, Hay, Fiona R, and Ellis, Richard H

Subjects

TEMPERATE forests, SOIL seed banks, DAFFODILS, CLIMATE change, SEED dormancy, GERMINATION, TEMPERATURE effect

Abstract

Background and Aims Understorey species in temperate deciduous woodlands such as wild daffodil (Narcissus pseudonarcissus) and common snowdrop (Galanthus nivalis) have complex dormancy: seeds that are shed in late spring require warm summer temperatures for embryo elongation and dormancy alleviation, but then cooler temperatures for germination in autumn. As seasons warm and tree canopies alter, how will different seasonal temperature sequences affect these complex dormancy responses? Methods The effect of different sequences of warmer (+5 °C), current or cooler (–5 °C) seasons (summer to spring) on seed germination patterns over seven successive seasons were investigated, with all sequences combined factorially to determine the consequences of differential seasonal temperature change for the temporal pattern of germination (and so seedling recruitment). Key Results Little (<1 %, G. nivalis) or no (N. pseudonarcissus) seed germination occurred during the first summer in any treatment. Germination of N. pseudonarcissus in the first autumn was considerable and greatest at the average (15 °C) temperature, irrespective of the preceding summer temperature; germination was also substantial in winter after a warmer autumn. Germination in G. nivalis was greatest in the warmest first autumn and influenced by preceding summer temperature (average > warmer > cooler); the majority of seeds that germinated over the whole study did so during the two autumns but also in year 2's cooler summer after a warm spring. Conclusions Warmer autumns and winters delay first autumn germination of N. pseudonarcissus to winter but advance it in G. nivalis ; overall, warming will deplete the soil seed bank of these species, making annual seed influx increasingly important for recruitment and persistence. This study provides a comprehensive account of the effects of temperature changes in different seasons on seed germination in these early spring-flowering geophytes and consequently informs how these and other temperate woodland species with complex seed dormancy may respond to future climate change. [ABSTRACT FROM AUTHOR]

Published

2020

48. Variation in seed traits among Mediterranean oaks in Tunisia and their ecological significance.

Author

Amimi, Nabil, Dussert, Stéphane, Vaissayre, Virginie, Ghouil, Hana, Doulbeau, Sylvie, Costantini, Carlo, Ammari, Youssef, and Joët, Thierry

Subjects

HOLM oak, SEEDS, OAK, GERMINATION, CORK oak, LOW temperatures, ATMOSPHERIC models

Abstract

Background and Aims Oaks are the foundation and dominant tree species of most Mediterranean forests. As climate models predict dramatic changes in the Mediterranean basin, a better understanding of the ecophysiology of seed persistence and germination in oaks could help define their regeneration niches. Tunisian oaks occupy distinct geographical areas, which differ in their rainfall and temperature regimes, and are thus a valuable model to investigate relationships between seed traits and species ecological requirements. Methods Seed morphological traits, desiccation sensitivity level, lethal freezing temperature, embryonic axis and cotyledon sugar and lipid composition, and seed and acorn germination rates at various constant temperatures were measured in Quercus canariensis , Q. coccifera , Q. ilex and Q. suber , using seeds sampled in 22 Tunisian woodlands. Key Results Only faint differences were observed for desiccation sensitivity in the oak species studied. By contrast, the species differed significantly in sensitivity to freezing, germination rates at low temperature and base temperature. Quercus ilex and Q. canariensis , which occur at high elevations where frost events are frequent, showed the lowest freezing sensitivity. A significant correlation was found between hexose contents in the embryonic axis and freezing tolerance. Significant interspecific differences in the time for seeds to germinate and the time for the radicle to pierce the pericarp were observed. The ratio of pericarp mass to acorn mass differed significantly among the species and was negatively correlated with the acorn germination rate. Quercus coccifera , which is frequent in warm and arid environments, showed the highest acorn germination rate and synchrony. Conclusions Seed lethal temperature, seed germination time at low temperatures, the ratio of pericarp mass to acorn mass and the embryonic axis hexose content appeared to be key functional traits that may influence the geographical ranges and ecological requirements of Mediterranean oaks in Tunisia. [ABSTRACT FROM AUTHOR]

Published

2020

49. A taxonomic survey of monocotylar Apiaceae and the implications of their morphological diversity for their systematics and evolution.

Author

Kljuykov, Eugene V, Petrova, Svetlana E, Degtjareva, Galina V, Zakharova, Ekaterina A, Samigullin, Tahir H, and Tilney, Patricia M

Subjects

CARROTS, UMBELLIFERAE, COTYLEDONS, BIOLOGICAL evolution, SEQUENCE analysis, SEEDLINGS

Abstract

In Apiaceae, embryos of most species have two cotyledons, but some species are consistently monocotylar. Traditionally, the monocotyly has been considered as taxonomically important at the generic level, despite its presumably multiple origins in the family. In this study, a survey of the published literature and our new findings on cotyledon number, embryo and seedling morphology and nrDNA ITS sequence data are presented to provide modern insights into the taxonomic distribution and phylogenetic relationships of monocotylar taxa. A molecular phylogenetic tree representing much of the diversity of monocotylar Apiaceae was produced to re-evaluate the potential implication of monocotyly for systematics and to elucidate its evolutionary significance in the family. Our data document the presence of monocotylar seedlings in 59 species representing 15 genera, in three species and one genus (Postiella) of which monocotylar seedlings are reported for the first time. Analysis of ITS sequence data indicates that monocotyly in Apiaceae has arisen independently in at least seven different lineages encompassing five of 41 major clades of subfamily Apioideae, but not in early-diverging lineages. Parallel evolution has resulted in a remarkable morphological similarity in monocotylar embryo and seedling organization, especially in the proportion of the cotyledon length to the axis of the embryo and the multifunctional cotyledonary tube in the seedling. These features could be considered as adaptations to a geophilic life form, as all monocotylar species are perennial herbs with tuberous underground organs distributed mainly in the Ancient Mediterranean region. The single cotyledon in Apiaceae, as in most other monocotyledonous eudicots, could be interpreted as two united cotyledons (syncotyly), but further developmental studies are needed to test this hypothesis. [ABSTRACT FROM AUTHOR]

Published

2020

50. Seed comparative genomics in three coffee species identify desiccation tolerance mechanisms in intermediate seeds.

Author

Stavrinides, Anna K, Dussert, Stéphane, Combes, Marie-Christine, Fock-Bastide, Isabelle, Severac, Dany, Minier, Jérôme, Bastos-Siqueira, Aldecinei, Demolombe, Vincent, Hem, Sonia, Lashermes, Philippe, and Joët, Thierry

Subjects

COMPARATIVE genomics, AUXIN, KREBS cycle, SEEDS, RESPIRATORY measurements, CALCIUM channels, OXIDATIVE phosphorylation

Abstract

In contrast to desiccation-tolerant 'orthodox' seeds, so-called 'intermediate' seeds cannot survive complete drying and are short-lived. All species of the genus Coffea produce intermediate seeds, but they show a considerable variability in seed desiccation tolerance (DT), which may help to decipher the molecular basis of seed DT in plants. We performed a comparative transcriptome analysis of developing seeds in three coffee species with contrasting desiccation tolerance. Seeds of all species shared a major transcriptional switch during late maturation that governs a general slow-down of metabolism. However, numerous key stress-related genes, including those coding for the late embryogenesis abundant protein EM6 and the osmosensitive calcium channel ERD4, were up-regulated during DT acquisition in the two species with high seed DT, C. arabica and C. eugenioides. By contrast, we detected up-regulation of numerous genes involved in the metabolism, transport, and perception of auxin in C. canephora seeds with low DT. Moreover, species with high DT showed a stronger down-regulation of the mitochondrial machinery dedicated to the tricarboxylic acid cycle and oxidative phosphorylation. Accordingly, respiration measurements during seed dehydration demonstrated that intermediate seeds with the highest DT are better prepared to cease respiration and avoid oxidative stresses. [ABSTRACT FROM AUTHOR]

Published

2020