Your search keyword '"Perennials"' showing total 5,462 results

1. A new species record for the flora of Türkiye; Caroxylon vermiculatum (L.) Akhani & Roalson (Chenopodiaceae / Amaranthaceae).

Author

Başköse, İsa and Yaprak, Ahmet Emre

Subjects

*AMARANTHACEAE, *BOTANY, *SYNONYMS, *SPECIES, *PERENNIALS

Abstract

In this study, Caroxylon vermiculatum (L.) Akhani & Roalson, which is distributed in Southwest Europe, Northwest and Central Africa, and the Middle East, is recorded for the first time from Türkiye. The species was collected from the Akçakale district of Şanlıurfa province, close to the Syrian border. The description of the species, synonyms, a distribution map, photographs of the specimens, and its morphological characteristics are given. In addition, the diagnostic characteristics of known perennial species of the genus Caryxylon from Türkiye were compared. [ABSTRACT FROM AUTHOR]

Published

2024

2. A unified streamflow drought index for both perennial and intermittent rivers at global scale.

Author

Cammalleri, Carmelo

Subjects

*DISTRIBUTION (Probability theory), *STREAMFLOW, *DROUGHTS, *PERENNIALS, *SIMULATION methods & models

Abstract

The modelling of streamflow drought is usually performed with different approaches for perennial and intermittent rivers, as no-flow periods require a dedicated statistical treatment. Here, a unified drought index is proposed by extending the threshold method to all flow regimes. The method generalizes the approach commonly adopted for low-flow droughts by accounting for the probability of occurrence in a yearly reference period. Application to a global dataset for 1991–2020, derived from ERA5-forced LISFLOOD model simulations, demonstrates how consistent outcomes can be obtained in all major perennial and intermittent streams. A simplified version of the method is also discussed, detailing how reliable drought detection can be achieved in many parts of the world (e.g. central Europe, the eastern US for low-flow, and northern Russia and the Middle East for no-flow) even when the frequency distribution of the spells in time is replaced by the simpler average number of events. [ABSTRACT FROM AUTHOR]

Published

2024

3. Progress of Research on Extraction, Function and Application of Moringa oleifera Polyphenols.

Author

WANG Wenjing, HU Xia, BAI Yuying, ZHANG Li, SU Min, PAN Yuexiu, XIE Jing, and TIAN Yang

Subjects

MORINGA oleifera, EDIBLE plants, MEDICINAL plants, POLYPHENOLS, PERENNIALS

Abstract

Moringa oleifera is a perennial medicinal and edible plant, and polyphenols as one of its main active ingredients. This study reviews the current status of development of the polyphenol types and contents of different parts, polyphenol extraction methods, polyphenol efficacy, and polyphenol applications of Moringa oleifera. Additionally, the current research on the antioxidant, anti-inflammatory, antibacterial, antiviral, anticancer, and hypoglycemic properties of polyphenols from Moringa oleifera is critically examined. The aim of this review is to provide a theoretical basis as well as new insights into the future research and applications of Moringa oleifera polyphenols. [ABSTRACT FROM AUTHOR]

Published

2024

4. High‐resolution CMIP6 analysis highlights emerging climate challenges in alpine and Tibetan Tundra zones.

Author

Fallah, Bijan, Rostami, Masoud, Didovets, Iulii, and Dong, Zhiwen

Subjects

*KOPPEN climate classification, *CLIMATE change, *SNOW cover, *TIBETANS, *PERENNIALS, *TUNDRAS

Abstract

We employ a high‐resolution Köppen climate classification dataset to examine shifts in Tundra zones within the Alps and Asia. Our analysis shows substantial reductions in Tundra areas by the mid‐21st century under different Shared. Socioeconomic pathways (SSP1‐2.6, SSP3‐7.0, SSP5‐8.5). Tundra zones in the Alps and the Tibetan Plateau are crucial for their unique climates and role as water reservoirs. Characterized by short, mild summers and long, severe winters, these zones are vital for the glaciers and perennial snow. The projected climate instability may significantly reduce alpine snow cover by mid‐century with irreversible consequences. A 2°C temperature increase from the 1981–2010 baseline could eliminate the Tundra climate in the Alps and reduce it by over 70% in Asia. This is particularly concerning given that rivers from the Tibetan Plateau sustain nearly 40% of the global population. [ABSTRACT FROM AUTHOR]

Published

2024

5. Transforming the Translation Industry: Innovative Applications of Blockchain Technology.

Author

Alsubhi, Waleed O.

Subjects

BLOCKCHAINS, EDUCATIONAL outcomes, CONFIDENTIAL communications, COST effectiveness, PERENNIALS, DATA security

Abstract

Blockchain technology has emerged as a disruptive force with transformative potential across various industries. This study explores its profound implications within the translation industry, aiming to address critical challenges while uncovering new opportunities. Through a comprehensive analysis of survey interview responses from industry professionals and an in-depth examination of three compelling case studies, we delve into the multifaceted dimensions of blockchain's influence. Our findings reveal that blockchain promises to revolutionize the translation industry on multiple fronts. It offers a robust solution to the perennial challenge of data security, ensuring the confidentiality and integrity of sensitive documents. Blockchain's inherent transparency and traceability mechanisms instill trust by enabling stakeholders to verify the authenticity of translated work. Moreover, blockchain streamlines translation processes, enhancing efficiency through smart contracts and tokens and reducing reliance on intermediaries. This newfound efficiency reduces costs and accelerates payment processing, reducing delays and disputes. In educational contexts, blockchain elevates the quality of translation guidance by improving access verification and reliability, fostering better student learning outcomes. As we conclude, blockchain technology can potentially reshape the translation industry. Its impact extends to security, efficiency, cost-effectiveness, trust, and educational enhancements. While challenges remain, our research provides a roadmap for industry stakeholders to embrace this transformative technology, ushering in an era where translation services are more secure, reliable, and accessible than ever before. The translation industry stands on the brink of a paradigm shift, and blockchain technology catalyzes this transformative journey. [ABSTRACT FROM AUTHOR]

Published

2024

6. PART OF THE FAMILY 2: Berberidaceae.

Author

BRAND, ANDY

Subjects

*ORNAMENTAL plants, *ANGIOSPERMS, *PRESIDENTS of the United States, *MIXED forests, *DECIDUOUS forests, *LAVENDERS, *PERENNIALS

Abstract

The article discusses the plant family Berberidaceae, which is often associated with the invasive Japanese barberry. However, the article highlights that there are many other members of the family that have ornamental appeal and are unfairly disregarded. The family consists of 18 genera and approximately 700 species of trees, shrubs, and perennials, with a variety of flowers and colorful fruit displays. The article then goes on to discuss several specific plants from the family, including barrenwort, umbrella leaf, ranzania japonica, twinleaf, and blue cohosh, providing information on their characteristics and growing conditions. The author encourages readers to give these plants a chance and appreciate their beauty. [Extracted from the article]

Published

2024

7. Cultural framing of giftedness in recent US fictional texts.

Author

Balestrini, Daniel Patrick and Stoeger, Heidrun

Subjects

*ENCYCLOPEDIAS & dictionaries, *EDUCATION research, *QUANTITATIVE research, *CORPORA, *PERENNIALS

Abstract

A perennial topic of research on giftedness has been individuals' perceptions of and attitudes towards giftedness, the gifted, and gifted education. Although giftedness is a culturally constructed concept, most examination of the term's meanings and implications has used reactive measures (i.e., surveys) to tap respondents' giftedness-related perceptions and attitudes within the context of formal education. To provide a better understanding of the cultural meanings associated with giftedness—the term's cultural framing—we investigated the depiction of giftedness within a professional cultural product removed from education, namely, a large corpus of US fictional texts. We examined patterns of word usage in the vicinity of the term gift*, when used in the dictionary senses related to giftedness, in a large corpus of US fictional texts of recent decades, consisting of 485,179 text samples and 1,002,889,754 word tokens. Via inductive methods of quantitative text analysis, we explored themes occurring in the vicinity of gift*; and with an existing lookup dictionary, we assessed deductively the overall emotional valance of the writing near gift*. Our investigation revealed ways in which the literary exploration of giftedness coheres with and distinguishes itself from the outlooks on giftedness noted for survey-based research in education settings. In fictional texts, giftedness evinces special associations with humanities domains and beauty and, on balance, correlates positively with emotionally positive words. [ABSTRACT FROM AUTHOR]

Published

2024

8. Proclus on ἕνωσις: Knowing the One by the One in the Soul.

Author

Tu, Van

Subjects

*SOUL, *SALVATION, *PERENNIALS, *NEOPLATONISM

Abstract

At Plato's insistence to become as godlike as one can, the Neoplatonists seek their salvation in union with the first principle they call the One, identifying this union as the highest end of philosophy. As with all aspirations, the transition from theoretical ideal to practical implementation remains a perennial problem: how is it possible for a person, as a mere mortal, to leave the person's confined ontological station to unite with the divine, transcendent first principle? This paper is an attempt to reconstruct Proclus' highly distinctive answer to this question of enormous importance through a close examination of his development of the late Neoplatonic notion of the One in the soul (τὸ ἐν ἡμῖν ἓν). [ABSTRACT FROM AUTHOR]

Published

2024

9. Influence of Mineral Liquid Fertilization on the Plant Growth of Perennials on Sheep's Wool–Coir–Vegetation Mats.

Author

Herfort, Susanne, Maß, Virginia, Hüneburg, Amelie, and Grüneberg, Heiner

Subjects

PLANT fertilization, PLANT growth, SHEEP, LIQUID fertilizers, MINERALS, PERENNIALS

Abstract

Perennials are usually pre-cultivated on vegetation mats consisting of coconut fiber (coir), which require weather-dependent irrigation and regular fertilization with fast-acting fertilizer to achieve a saleable condition as quickly as possible. In the pre-cultivation of sheep's wool–coir–vegetation mats, nitrogen (N) is already sufficiently contained in the vegetation mats due to the natural nitrogen content of the sheep's wool fibers, so that additional liquid fertilization during pre-cultivation can be dispensed with if necessary. In this study, sheep's wool–coir–vegetation mats of 4.5 kg/m2 were pre-cultivated with 16 perennial plants (8 species) in 2018. Variant 1 (V1) received regular fertilization with mineral liquid fertilizer (total 8.7 g N/m2) during pre-cultivation. Variant 2 (V2) was not fertilized during pre-cultivation. In spring 2019, all pre-cultivated vegetation mats were lifted and laid on an area prepared with topsoil. No additional fertilization was applied after laying. The overall impression, plant height, number of flowering perennials, and plant coverage were examined in the 2018 and 2019 growing seasons, with only minor differences observed between V1 and V2. The number of flowers, biomass, and nitrogen content were determined for the two aster species used. There were differences between V1 and V2 in 2018, but not in 2019. The coverage of perennials of 50%, which is the prerequisite for the saleability of the vegetation mats, was already achieved on both V1 and V2 after 4 months of pre-cultivation. The overall impression of the perennials on both V1 and V2 also did not differ during pre-cultivation nor in the following year. Therefore, liquid fertilization is not necessary during the pre-cultivation of perennials on sheep's wool–coir–vegetation mats. [ABSTRACT FROM AUTHOR]

Published

2024

10. Divergent evolution of NLR genes in the genus Glycine: impacts of annuals and perennials' life history strategies.

Author

Sultan, Abu Bakar, Nawaz, Humera, Saleem, Fozia, Nawaz, Sehar, Danial, Muhammad, Iftikhar, Romana, Maqsood, Umer, Areej, Amna, Shakoor, Sidra, Aljarba, Nada H., Maqbool, Rizwan, Rizwan, Muhammad, and Serfraz, Saad

Subjects

LIFE history theory, PERENNIALS, GLYCINE, GENE families, SOYBEAN, GENES

Abstract

Within the family Fabaceae, the genus Glycine is composed of two subgenera annuals (2n=40) and perennials. This life strategy transition may have differentially affected the evolution of various gene families. Its cultivated species G. max has high level of susceptibility to major pathogens including viruses, bacteria and fungi. Understanding nucleotide-binding domain leucine-rich repeat (NLR) genes evolution in soybean is of paramount importance due to their central role in plant immunity and their potential in improving disease resistance in soybean cultivars. In this study, we investigated the significance of this annual-perennial transition on the macroevolution of NLR genes in the genus Glycine. Our results reveal a remarkable distinction between annual species such as Glycine max and Glycine soja, which exhibit an expanded NLRome compared to perennial species (G. cyrtoloba, G. stenophita, G. dolichocarpa, G. falcata, G. syndetika, G. latifolia and G. tomentella). Our evolutionary timescale analysis pinpoints recent accelerated gene duplication events for this expansion, which occurred between 0.1 and 0.5 million years ago, driven predominantly by lineage-specific and terminal duplications. In contrast, perennials initially experienced significant contraction during the diploidisation phase following the Glycine-specific whole-genome duplication event (-10 million years ago). Despite the reduction in the NLRome, perennial lineages exhibit a unique and highly diversified repertoire of NLR genes with limited interspecies synteny. The investigation of gene gain and loss ratios revealed that this diversification resulted from the birth of novel genes following individual speciation events. Among perennials, G. latifolia, a well-known resistance resource, has the highest ratio of these novel genes in the tertiary gene pool. Our study suggests evolutionary mechanisms, including recombination and transposition, as potential drivers for the emergence of these novel genes. This study also provides evidence for the unbalanced expansion of the NLRome in the Dt subgenome compared with the At subgenome in the young allopolyploid G. dolichocarpa. To the best of our knowledge, this is the first study to investigate the effect of annuality and perenniality life transition on the evolution of NLR genes in the genus Glycine to identify its genomics resources for improving the resistance of soybean crop with global importance on the economy and food security. [ABSTRACT FROM AUTHOR]

Published

2024

11. An evaluation of tradeoffs in restoring ephemeral vs. perennial habitats to conserve animal populations.

Author

Peterson, James T. and Duarte, Adam

Subjects

ANIMAL populations, HABITATS, AQUATIC habitats, CHINOOK salmon, FLOODS, POPULATION viability analysis, PERENNIALS

Abstract

Introduction: Habitat loss and degradation pose significant threats to global fish and wildlife populations, prompting substantial investments in habitat creation and restoration efforts. Not all habitats provide equal benefits, leading to challenges in prioritizing restoration actions. For example, juvenile anadromous salmonids require high quality rearing aquatic habitats to achieve the physiological requirements needed to successfully migrate to the ocean. However, there are profound disagreements among anadromous salmon restoration managers whether it is best to focus efforts on restoring in-channel habitats that are available for the entire rearing period or floodplain habitats that, while facilitating greater growth and survival than in-channel habitats, are only available for a few weeks at a time and are typically only activated every two-to-three years. Methods: We used an existing fall-run Chinook salmon decision-support model to evaluate under what conditions floodplain restoration would provide greater benefits than in-channel habitat restoration. The simulations included a wide range of floodplain inundation frequencies and durations and floodplain benefits in the form of increased survival and growth relative to in-channel habitats. Results: The simulations results indicated that in-channel habitat restoration was always the best habitat restoration action when there was no existing in-channel habitat despite simulating a wide range of flood frequency, duration, and growth and survival benefits. Floodplain restoration was generally best when there was sufficient in-channel habitat available to successfully rear most of the juveniles produced by the returning adult salmon. Discussion: We hypothesize that in-channel and floodplain habitats have different roles in salmon population maintenance with in-channel habitats regulating the overall population size and floodplains acting as recurrent resource pulses. Our study provides a quantitative framework to evaluate the benefit of these two habitat types and provides generalizable rulesets that can be used by managers when implementing habitat restoration strategies for species that inhabit both in-channel and floodplain habitats. [ABSTRACT FROM AUTHOR]

Published

2024

12. The influence of salicylic acid and nutritional requirement on the growth, flowering and chemical composition of geranium (Pelargonium zonale, L.) plants.

Author

Hamid, Eman B. A. and Imhmd, Gabriel F. M.

Abstract

The current research aimed to investigate the impact of salicylic acid at concentrations of 0.00, 50.00, 100.00, and 150.00 mgl-1 via foliar spray, as well as nutritional requirement of NPK (19:19:19) at 0.00, 2.00, 3.00, and 4.00 g/pot. NPK monthly throughout the growing season, and their combined influence on the growth, flowering, and chemical composition of leaves of Pelargonium zonale, L. plants under full sun conditions in an open field. The findings indicated that the application of salicylic acid and/or NPK fertilizer led to a significant increase in most studied parameters compared to the control. In terms of Pelargonium zonale, L. plants, it was observed that spraying SA at 100.0 mgl-1 while using 3 g/pot mineral NPK monthly during the growing season resulted in the highest significant values for plant height, root volume, and root dry weight. Furthermore, results showed that plants receiving SA 150 mgl-1 combined with a medium rate of NPK application (3g/plant) monthly during the growing season had the highest significant values for stem diameter, leaf number per plant, leaf area and leaf dry weights, inflorescences number, and inflorescences diameter. The data total chlorophyll, carotenoids, leaf NPK contents revealed that the highest significant values were achieved in plants treated with SA 150 mgl-1 combined with medium and/or the highest rate of NPK application in comparison to untreated plants. [ABSTRACT FROM AUTHOR]

Published

2024

13. Nomenclature of the Balkan alliance Romuleion graecae (Poetea bulbosae).

Author

Terzi, Massimo, Jasprica, Nenad, Čarni, Andraž, Matevski, Vlado, Bergmeier, Erwin, and Theurillat, Jean-Paul

Subjects

*VEGETATION classification, *PLANT communities, *PENINSULAS, *GRASSLANDS, *PERENNIALS

Abstract

The Romuleion, the only alliance of the order Poetalia bulbosae (class Poetea bulbosae) found on the Balkan Peninsula, represents Mediterranean perennial and ephemeral pastures. It has been found in several Balkan countries, from Greece to the Republic of North Macedonia, Montenegro, Croatia and Bulgaria. However, a revision of its nomenclature according to the fourth edition of the International Code of Phytosociological Nomenclature shows that the name of the alliance was not validly published. In this paper we therefore describe the new alliance Romuleion graecae, together with the new association Plantagini lagopodis-Poetum bulbosae. [ABSTRACT FROM AUTHOR]

Published

2024

14. Juvenile survival increases with dispersal distance and varies across years: 15 years of evidence in a prairie perennial.

Author

Richardson, Lea K., Nordstrom, Scott W., Waananen, Amy, Thoen, Riley D., Dykstra, Amy B., Kiefer, Gretel, Mullett, Drake E., Eichenberger, Erin G., Shaw, Ruth G., and Wagenius, Stuart

Subjects

*PRAIRIES, *DEMOGRAPHIC change, *HERBACEOUS plants, *FRAGMENTED landscapes, *SEEDLINGS

Abstract

Juvenile survival is critical to population persistence and evolutionary change. However, the survival of juvenile plants from emergence to reproductive maturity is rarely quantified. This is especially true for long‐lived perennials with extended pre‐reproductive periods. Furthermore, studies rarely have the replication necessary to account for variation among populations and cohorts. We estimated juvenile survival and its relationship to population size, density of conspecifics, distance to the maternal plant, age, year, and cohort for Echinacea angustifolia, a long‐lived herbaceous perennial. In 14 remnant prairie populations over seven sampling years, 2007–2013, we identified 886 seedlings. We then monitored these individuals annually until 2021 (8–15 years). Overall, juvenile mortality was very high; for almost all cohorts fewer than 10% of seedlings survived to age 8 or to year 2021. Only two of the seedlings reached reproductive maturity within the study period. Juvenile survival increased with distance from the maternal plant and varied more among the study years than it did by age or cohort. Juvenile survival did not vary with population size or local density of conspecific neighbors. Our results suggest that low juvenile survival could contribute to projected population declines. [ABSTRACT FROM AUTHOR]

Published

2024

15. Factors contributing to the diagnosis and onset prediction of perennial allergic rhinitis in high-risk children: A sub-analysis of the CHIBA study.

Author

Yonekura, Syuji, Okamoto, Yoshitaka, Yamaide, Fumiya, Nakano, Taiji, Hirano, Kiyomi, Funakoshi, Urara, Hamasaki, Sawako, Iinuma, Tomohisa, Hanazawa, Toyoyuki, and Shimojo, Naoki

Subjects

*ALLERGIC rhinitis, *HOUSE dust mites, *PEDIATRIC otolaryngology, *ATOPY, *PERENNIALS

Abstract

This study aimed to clarify the diagnostic and predictive factors for perennial allergic rhinitis (PAR) onset in children by analyzing the results of the Chiba High-risk Birth Cohort for Allergy study, which examined newborns with a family history of allergies. Overall, 306 pregnant women were recruited. Their newborns were examined by otolaryngologists and pediatric allergists at 1, 2, and 5 years of age. Participants with clinical and laboratory data available at all consultation points were considered eligible. Among 187 eligible participants, the prevalence rates of PAR were 2.1%, 4.3%, and 24.1% at 1, 2, and 5 years of age, respectively. AR-specific nasal local findings and eosinophils in nasal smear were observed in a substantial number of patients with PAR at 1 and 2 years of age. Factors present up to 2 years of age that were associated with PAR onset at 5 years of age, in descending order, were as follows: sensitization to house dust mites (HDM), nasal eosinophilia, and sensitization to cat dander. In 44 cases with HDM sensitization, nasal eosinophilia up to 2 years of age achieved a sensitivity of 76.0% and a specificity of 73.7% for predicting PAR onset at 5 years. Rhinitis findings and nasal eosinophilia are useful auxiliary diagnostic items for pediatric PAR. Sensitization to HDM and nasal eosinophilia were the most influential factors associated with future PAR onset. A combination of these factors may facilitate the prediction of PAR onset. [ABSTRACT FROM AUTHOR]

Published

2024

16. Perennial Grains and Oilseeds: Current Status and Future Prospects.

Author

Cattani, Douglas J.

Subjects

SOIL quality, OILSEEDS, CULTIVARS, PERENNIALS, SOILS

Abstract

The release of cultivars of two perennial grains is a milestone in perennial grain and oilseed development. Agronomic studies can progress by having stable genetics upon which to conduct research. Agriculture has generally committed to enhancing soil health, with perennial grains and oilseeds offering potentially non-animal-related alternatives to our current choices. Utilizing perennial grains and oilseeds offers potential to small-grain producers to improve, or at least maintain, their soil quality as perennial grains generally have little soil disturbance post-seeding. Understanding perennial grain and oilseed development and how they interact with their growth environment will provide us with baselines upon which to gauge agronomic interventions as we attempt to increase productivity without negative environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

17. Jerusalem Artichoke: Energy Balance in Annual and Perennial Cropping Systems—A Case Study in North-Eastern Poland.

Author

Jankowski, Krzysztof Józef and Bogucka, Bożena

Subjects

*JERUSALEM artichoke, *CROPPING systems, *BIOMASS energy, *BIOMASS production, *AGRICULTURE, *PERENNIALS

Abstract

This article presents the results of a three-year experiment (2018–2020) conducted at the Agricultural Experiment Station in Bałcyny (north-eastern Poland) with the aim of determining Jerusalem artichoke (JA) yields and the energy balance of biomass production in (i) a perennial cropping system (only aerial biomass was harvested each year) and (ii) an annual cropping system (both aerial biomass and tubers were harvested each year). When JA was grown as a perennial crop, the demand for energy reached 25.2 GJ ha−1 in the year of plantation establishment and 12.3–13.4 GJ ha−1 in the second and third year of production. The energy inputs associated with the annual cropping system were determined in the range of 31.4–37.1 GJ ha−1. Biomass yields were twice as high in the annual than in the perennial cropping system (20.98 vs. 10.30 Mg DM ha−1). Tuber yield accounted for 46% of the total yield. The energy output of JA biomass was 1.8 times higher in the annual than in the perennial cropping system (275.4 vs. 157.3 GJ ha−1). The average energy gain in JA cultivation ranged from 140 (perennial crop) to 241 GJ ha−1 (annual crop). The energy efficiency ratio of JA biomass production reached 7.7–13.3 in the perennial cropping system, and it was 20% lower in the annual cropping system. These results imply that when JA was grown as an annual crop, an increase in energy inputs associated with plantation establishment (tillage and planting) and the harvest and transport of tubers was not fully compensated by the energy output of tubers. [ABSTRACT FROM AUTHOR]

Published

2024

18. MicroRNA164 Regulates Perennial Ryegrass (Lolium perenne L.) Adaptation to Changing Light Intensity.

Author

Zhang, Liyun, Huang, Xin, Liu, Yanrong, Ma, Ning, Li, Dayong, Hu, Qiannan, Zhang, Wanjun, and Wang, Kehua

Subjects

*LOLIUM perenne, *LIGHT intensity, *TURFGRASSES, *RYEGRASSES, *PERENNIALS, *TRANSGENIC plants, *GENETIC regulation

Abstract

Plants especially need to adapt to all different light environments (shade, high light, etc.) due to the essential role of light in plant life. Either shade or high-light microenvironmental conditions are common for cool-season turfgrasses, such as perennial ryegrass (Lolium perenne L.). In order to study how a plant highly conserves microRNA, miR164-affected perennial ryegrass were studied under different light intensities. OsmiR164a-overexpression (OE164), target mimicry OsmiR164a (MIM164), and CRES-T (chimeric repressor gene-silencing technology) OsNAC60 (NAC60) transgenic plants and wild-type (WT) plants were evaluated in both field (shade and full sun) and growth chamber conditions (low, medium, and high PAR at 100, 400, and 1200 µmol s−1 m−2). Morphological and physiological analysis showed miR164 could fine-tune perennial ryegrass adaptation to changing light intensity, possibly via the regulation of target genes, such as NAC60. Overall, OE164 and NAC60 plants were similar to each other and more sensitive to high light, particularly under the field condition, demonstrated by smaller size and much poorer grass quality; MIM164 performed more like WT plants than either the OE164 or NAC60 plants. This study indicates the potential of genetic manipulation of miR164 and/or its targeted genes for turfgrass adaptation to changing light environments, and future research to further investigate the molecular mechanism beneath would be warranted. [ABSTRACT FROM AUTHOR]

Published

2024

19. Nitrogen acquisition and retention pathways in sustainable perennial bioenergy grass cropping systems.

Author

Duan, Danyang and Kent, Angela D.

Subjects

*CROPPING systems, *NITROGEN fertilizers, *SWITCHGRASS, *ENERGY crops, *PERENNIALS, *NITROGEN fixation, *GRASSES

Abstract

Perennial tall grasses show promise as bioenergy crops due to high productivity and efficient nutrient use. Ongoing research on bioenergy grasses seeks to reduce their reliance on synthetic nitrogen (N) fertilizer, the manufacture of which relies on fossil fuel combustion. Excessive use of fertilizers also causes adverse environmental consequences and leads to the evolutionary loss of plant traits beneficial to sustainable N cycle. Notably, perennial tall grasses have exhibited the potential to maintain high biomass yield without the need for N fertilizer or causing soil N depletion. Perennial grasses can be adept at interacting with their microbial partners to facilitate N acquisition and retention via mechanisms such as biological N fixation and nitrification inhibition. These inherent N management traits should be preserved and optimized at the this early stage of bioenergy grass breeding programs. This review examines the impact of external N on bioenergy grass production and explores the potential of leveraging advantageous N‐cycling attributes of perennial tall grasses, laying groundwork for future management and research efforts. With minimized dependency on external N input, the cultivation of perennial energy grasses will pave the way toward more resilient agricultural systems and play a significant role in addressing key global energy and environmental challenges. [ABSTRACT FROM AUTHOR]

Published

2024

20. Allometric relationships and trade‐offs in 11 common Mediterranean‐climate grasses.

Author

Gao, Xiulin, Koven, Charles D., and Kueppers, Lara M.

Subjects

ALLOMETRIC equations, ECOLOGICAL disturbances, COMPETITION (Biology), PLANT life cycles, LIFE cycles (Biology), GRASSES, PERENNIALS

Abstract

Biomass allocation in plants is the foundation for understanding dynamics in ecosystem carbon balance, species competition, and plant–environment interactions. However, existing work on plant allometry has mainly focused on trees, with fewer studies having developed allometric equations for grasses. Grasses with different life histories can vary in their carbon investment by prioritizing the growth of specific organs to survive, outcompete co‐occurring plants, and ensure population persistence. Further, because grasses are important fuels for wildfire, the lack of grass allocation data adds uncertainty to process‐based models that relate plant physiology to wildfire dynamics. To fill this gap, we conducted a greenhouse experiment with 11 common California grasses varying in photosynthetic pathway and growth form. We measured plant sizes and harvested above‐ and belowground biomass throughout the life cycle of annual species, while for the establishment stage of perennial grasses to quantify allometric relationships for leaf, stem, and root biomass, as well as plant height and canopy area. We used basal diameter as a reference measure of plant size. Overall, basal diameter is the best predictor for leaf and stem biomass, height, and canopy area. Including height as another predictor can improve model accuracy in predicting leaf and stem biomass and canopy area. Fine root biomass is a function of leaf biomass alone. Species vary in their allometric relationships, with most variation occurring for plant height, canopy area, and stem biomass. We further explored potential trade‐offs in biomass allocation across species between leaf and fine root, leaf and stem, and allocation to reproduction. Consistent with our expectation, we found that fast‐growing plants allocated a greater fraction to reproduction. Additionally, plant height and specific leaf area negatively influenced the leaf‐to‐stem ratio. However, contrary to our hypothesis, there were no differences in root‐to‐leaf ratio between perennial and annual or C4 and C3 plants. Our study provides species‐specific and functional‐type‐specific allometry equations for both above‐ and belowground organs of 11 common California grass species, enabling nondestructive biomass assessment in California grasslands. These allometric relationships and trade‐offs in carbon allocation across species can improve ecosystem model predictions of grassland species interactions and environmental responses through differences in morphology. [ABSTRACT FROM AUTHOR]

Published

2024

21. Cross‐scale analysis reveals interacting predictors of annual and perennial cover in Northern Great Basin rangelands.

Author

Case, Madelon F., Davies, Kirk W., Boyd, Chad S., Aoyama, Lina, Merson, Joanna, Penkauskas, Calvin, and Hallett, Lauren M.

Subjects

RANGELANDS, CHEATGRASS brome, NATIVE plants, PERENNIALS, GRAZING, GRASSLAND fires, FIELD research

Abstract

Exotic annual grass invasion is a widespread threat to the integrity of sagebrush ecosystems in Western North America. Although many predictors of annual grass prevalence and native perennial vegetation have been identified, there remains substantial uncertainty about how regional‐scale and local‐scale predictors interact to determine vegetation heterogeneity, and how associations between vegetation and cattle grazing vary with environmental context. Here, we conducted a regionally extensive, one‐season field survey across burned and unburned, grazed, public lands in Oregon and Idaho, with plots stratified by aspect and distance to water within pastures to capture variation in environmental context and grazing intensity. We analyzed regional‐scale and local‐scale patterns of annual grass, perennial grass, and shrub cover, and examined to what extent plot‐level variation was contingent on pasture‐level predictions of site favorability. Annual grasses were widespread at burned and unburned sites alike, contrary to assumptions of annual grasses depending on fire, and more common at lower elevations and higher temperatures regionally, as well as on warmer slopes locally. Pasture‐level grazing pressure interacted with temperature such that annual grass cover was associated positively with grazing pressure at higher temperatures but associated negatively with grazing pressure at lower temperatures. This suggests that pasture‐level temperature and grazing relationships with annual grass abundance are complex and context dependent, although the causality of this relationship deserves further examination. At the plot‐level within pastures, annual grass cover did not vary with grazing metrics, but perennial cover did; perennial grasses, for example, had lower cover closer to water sources, but higher cover at higher dung counts within a pasture, suggesting contrasting interpretations of these two grazing proxies. Importantly for predictions of ecosystem response to temperature change, we found that pasture‐level and plot‐level favorability interacted: perennial grasses had a higher plot‐level cover on cooler slopes, and this difference across topography was starkest in pastures that were less favorable for perennial grasses regionally. Understanding the mechanisms behind cross‐scale interactions and contingent responses of vegetation to grazing in these increasingly invaded ecosystems will be critical to land management in a changing world. [ABSTRACT FROM AUTHOR]

Published

2024

22. Nutritional Quality of Early-Generation Kernza Perennial Grain.

Author

Craine, Evan B. and DeHaan, Lee R.

Subjects

NUTRITION, FLOUR, PERENNIALS, AMINO acids, BUSINESS names, VITAMIN B2, DIETARY fiber

Abstract

Grain from improved varieties of the perennial grass Thinopyrum intermedium (Host) Barkworth & D.R. Dewey is marketed under the trade name Kernza (common name intermediate wheatgrass, IWG). While a growing body of evidence is available on the nutritional quality of Kernza, gaps exist for components such vitamins and minerals and protein quality. Therefore, we performed two studies on early-generation breeding program material, characterizing nutritional quality by quantifying macronutrients, sugars, dietary fiber, amino acid profiles, fat composition, vitamins, minerals, carotenoids, antioxidants, and antioxidant activity. The IWG studied frequently had concentrations significantly different from the reference values for whole wheat flour. For example, IWG had 50% higher protein, 129% higher dietary fiber, and 65% higher ash content than reference whole wheat flour. Calcium and selenium were 267% and 492% higher, respectively, in IWG than whole wheat flour. Riboflavin and folate were 43% and 447% higher, respectively, and niacin 74% lower in IWG versus whole wheat flour. We identified lysine as the limiting amino acid, although its concentration was 33% greater in IWG than in whole wheat flour. These results support potential benefits of Kernza for human nutrition. This work supports ongoing studies to further characterize and evaluate nutritional quality during the domestication and breeding process. [ABSTRACT FROM AUTHOR]

Published

2024

23. Australians all

Author

Buchan, Bruce

Published

2022

24. LATE SUMMER PARTY: As the first flush of summer flowers fade, a cohort of scintillating perennials is ready to burst on the scene and inject colour into flagging borders.

Author

STOCKEN, NICOLA

Subjects

PERENNIALS, GARDEN borders, SUMMER, GARDEN design, ASTERS

Abstract

The article focuses on late-summer perennial plants and their role in rejuvenating garden borders with vibrant colors and varied textures. It emphasizes the strategic planting of perennials like coneflowers, Japanese anemones, and asters to create striking displays that endure throughout the season, offering practical advice on garden design and maintenance.

Published

2024

25. Prized Perennials.

Author

SHINN, MEGHAN

Subjects

*COLOR of plants, *AUTUMN, *FLOWERING of plants, *EDIBLE plants, *HERBACEOUS plants, *PERENNIALS, *HOSTA

Abstract

This article discusses various plant award programs in the United States that recognize excellent species and cultivars for gardens. These awards highlight plants that have established themselves over many years and can thrive in specific climates or nationwide. The article specifically mentions the Pennsylvania Horticultural Society's Gold Medal Plants, the Theodore Klein Plant Awards, the GreatPlants for the Great Plains list, the American Hosta Growers Association's Hosta of the Year, and the Perennial Plant Association's Perennial Plant of the Year. The article also provides information on several award-winning perennials, including the 'Brandywine' foamflower, Japanese roof iris, woodland phlox, little bluestem, 'Blackhawks' big bluestem, 'Blue Fortune' hyssop, 'Mini Skirt' hosta, and 'Jeana' phlox. [Extracted from the article]

Published

2024

26. Effects of Photoperiod Treatments on Stock Plants and Cutting Rooting of Three Cultivars of Ornamental Perennials.

Author

Conner Koski, Ronda D., Klett, James E., and Burcham, Daniel

Subjects

ROOTING of plant cuttings, CULTIVARS, HERBACEOUS plants, PERENNIALS, SAGE, VEGETATIVE propagation

Abstract

Many species of herbaceous perennials now have numerous cultivars, with growth habits and flower colors unique to each cultivar. Vegetative propagation is required so that resulting plants are genetically identical to the parent plant. Although many cultivars are selected for precocious and vigorous flowering, it is often difficult to collect adequate vegetative cuttings from such cultivars for commercial production because juvenile (vegetative) growth is preferred for highquality cuttings. Cuttings that are reproductive (with flower buds or flowers) can have reduced or delayed rooting and increased occurrences of fungal pathogens (especially Botrytis species), resulting in lack of crop uniformity. We sought to answer the question, can growing stock plants of herbaceous perennials under defined photoperiods extend the length of the vegetative period and enhance the rooting of cuttings harvested from these stock plants? In this study, stock plants of 'P009S' twinspur (Diascia integerrima), 'Furman's Red' sage (Salvia greggii), and 'Wild Thing' sage (Salvia greggii) were grown under ambient, 12-hour light, 10-hour light, and 8-hour light to determine if a particular photoperiod could be used to suppress reproductive growth by promoting vegetative growth, thereby enhancing cutting rooting success. Effects of photoperiod treatments varied among the plant cultivars studied. Plants grown under 8-hour photoperiod had longer duration of vegetative growth, smaller growth rates, and lower dry weights when compared with plants grown under 12-hour or 10-hour photoperiod. Plants grown under 12-hour photoperiod had shorter duration of vegetative growth, larger growth rates, and higher dry weights when compared with plants grown under 10-hour and 8-hour photoperiods. The probability of rooting of cuttings harvested from stock plants of 'P009S' twinspur, 'Furman's Red' sage, and 'Wild Thing' sage grown under 12-hour and 10-hour photoperiods was greater when compared with cuttings harvested from stock plants grown under 8 h photoperiod. [ABSTRACT FROM AUTHOR]

Published

2024

27. Field testing of user-friendly perennial malaria chemoprevention packaging in Benin, Côte d'Ivoire and Mozambique.

Author

Faye, Sylvain Landry Birane, Lugand, Maud Majeres, Offianan, André Touré, Dossou-Yovo, Aurélie, Kouadio, Dieudonné Kouakou M'Bra, and Pinto, Felix

Subjects

*MALARIA, *MEDICAL personnel, *CHEMOPREVENTION, *COMMUNITY health workers, *PERENNIALS

Abstract

Background: Perennial malaria chemoprevention (PMC) aims to protect children at risk from severe malaria by the administration of anti-malarial drugs to children of defined ages throughout the year. Sulfadoxine-pyrimethamine (SP) has been widely used for chemoprevention in Africa and a child-friendly dispersible tablet formulation has recently become available. Methods: This qualitative non-interventional observational study was conducted in Benin, Côte d'Ivoire, and Mozambique between February and June 2022. Prototype blister packs, dispensing boxes and job aids designed to support dispersible SP deployment for PMC were evaluated using focus group discussions (FGD) and semi-structured in-depth individual interviews (IDI) with health authorities, health personnel, community health workers (CHWs) and caregivers. The aim was to evaluate knowledge and perceptions of malaria and chemoprevention, test understanding of the tools and identify gaps in understanding, satisfaction, user-friendliness and acceptability, and assess the potential role of CHWs in PMC implementation. Interviews were transcribed and imported to ATLAS.ti for encoding and categorization. Thematic content analysis used deductive and inductive coding with cross-referencing of findings between countries and participants to enrich data interpretation. Continuous comparison across the IDI and FGD permitted iterative, collaborative development of materials. Results: Overall, 106 participants completed IDIs and 70 contributed to FGDs. Malaria was widely recognised as the most common disease affecting children, and PMC was viewed as a positive intervention to support child health. The role of CHWs was perceived differently by the target groups, with caregivers appreciating their trusted status in the community, whereas health authorities preferred clinic-based deployment of PMC by health professionals. Empirical testing of the prototype blister packs, dispensing boxes and job aids highlighted the context-specific expectations of respondents, such as familiar situations and equipment, and identified areas of confusion or low acceptance. A key finding was the need for a clear product identity reflecting malaria. Conclusion: Simple modifications profoundly affected the perception of PMC and influenced acceptability. Iterative quantitative investigation resulted in PMC-specific materials suited to the local context and socio-cultural norms of the target population with the aim of increasing access to chemoprevention in children most at risk of severe malaria. [ABSTRACT FROM AUTHOR]

Published

2024

28. Seed germination demonstrates inter-annual variations in alkaline tolerance: a case study in perennial Leymus chinensis.

Author

Zhao, Dandan, Ma, Hongyuan, Li, Shaoyang, and Qi, Wenwen

Subjects

*GERMINATION, *RATE setting, *SEED yield, *PERENNIALS, *ABIOTIC stress, *WEEDS

Abstract

Background and aims: The escalating issue of soil saline-alkalization poses a growing global challenge. Leymus chinensis is a perennial grass species commonly used in the establishment and renewal of artificial grasslands that is relatively tolerant of saline, alkaline, and drought conditions. Nonetheless, reduced seed setting rates limit its propagation, especially on alkali-degraded grassland. Inter-annual variations have an important effect on seed yield and germination under abiotic stress, and we therefore examined the effect of planting year on seed yield components of L. chinensis. Methods: We grew transplanted L. chinensis seedlings in pots for two (Y2), three (Y3), or four (Y4) years and collected spikes for measurement of seed yield components, including spike length, seed setting rate, grain number per spike, and thousand seed weight. We then collected seeds produced by plants from different planting years and subjected them to alkaline stress (25 mM Na2CO3) for measurement of germination percentage and seedling growth. Results: The seed setting rate of L. chinensis decreased with an increasing number of years in pot cultivation, but seed weight increased. Y2 plants had a higher seed setting rate and more grains per spike, whereas Y4 plants had a higher thousand seed weight. The effects of alkaline stress (25 mM Na2CO3) on seed germination were less pronounced for the heavier seeds produced by Y4 plants. Na2CO3 caused a 9.2% reduction in shoot length for seedlings derived from Y4 seeds but a 22.3% increase in shoot length for seedlings derived from Y3 seeds. Conclusions: Our findings demonstrate significant differences in seed yield components among three planting years of L. chinensis under pot cultivation in a finite space. Inter-annual variation in seed set may provide advantages to plants. Increased alkalinity tolerance of seed germination was observed for seeds produced in successive planting years. [ABSTRACT FROM AUTHOR]

Published

2024

29. Vitality and longevity of perennial ryegrass (Lolium perenne L.) accessions in North Central Bulgaria.

Author

Katova, Aneliya

Subjects

*LOLIUM perenne, *FORAGE plants, *RYEGRASSES, *LIFE cycles (Biology), *LONGEVITY, *PERENNIALS

Abstract

Perennial ryegrass is the most widely grown temperate grass species globally as a source of forage (grazing, hay, silage) or for amenity use. It is a part of landscape, protects soil from water and wind erosion, enriches it with organic substances and improves its fertility. During the period 2015-2020 in the Institute of Forage crops (IFC) - Pleven a collection nursery was studied in field non-irrigated conditions on leached black soil, in block duplicate method, in 2 replications with a total of 19 accessions of perennial ryegrass, with 50 individual plants each (25 plants for forage and 25 plants - for seeds), including 14 varieties and 5 ecotypes, 10 tetraploid and 9 diploid, from Bulgaria (BG), Belgium (BE), and Romania (RO). The aim is to determine the vitality per year and longevity (after many years, more than 3-4) of perennial ryegrass collection accessions and to make a selection of the most vital and long - lasting genotypes. Scale of survival according to the International Classifier for the family Poaceae (Bukhteeva et al., 1985) was used - limiting factors of the environment are cold - winter, drought and high temperatures - summer. An autumn inventory of the individual plants no./% was carried out annually, as 25 plants per sample = 100%., and vitality classification as follows: Very Low - less than 1 to 20% of plants are left alive; Low - more than 21 to 50%; Medium - more than 51% to 70%; High - more than 71 to 90%; Very High - more than 90% of the plants are still alive. Computer statistical processing of the data (via Excel, at P = 0.05) included variance analyses. Data on vitality and longevity are characterized by: marginal values (min and max), arithmetic mean (x), standard deviation (SD) and coefficient of variation (CV,%). Variation was considered weak, moderate, or strong at CV values, respectively: up to 10%; > 10-20%, and > 20% (Dimova and Marinkov, 1999). When grown for fodder, the local ecotypes Sokolare, Topolovgrad and Bekovi skali are the most viable by years and the longest surviving up to 5 years, with the percentage of plants alive in the fifth year being the highest for the Sokolare ecotype. Ecotype Sokolare is strongly influenced by the method of use, which is the longest-lasting and most viable when grown for fodder - 5 years and the shortest - when grown for seeds - 3 years. All diploid varieties live up to 4 years, and only the Harmoniya variety up to 5 years, with the Bulgarian varieties Harmoniya and Strandzha being the most viable and long-lasting when grown for fodder. Harvesting once a year for seeds extends the life cycle of diploid varieties up to 5 years and for the Harmoniya variety - up to 6. The Bulgarian tetraploid varieties Tetrany, Tetramis and the Belgian varieties Floris, Melpetra and Melverde are the most durable and long-lasting. One-time harvesting per year for seeds extends the life cycle of the tetraploid varieties up to 5 years, and for the Bulgarian varieties Tetrany, Tetramis and the Belgian varieties Floris, Melpetra and Melverde - up to 6. [ABSTRACT FROM AUTHOR]

Published

2024

30. Degradation and resynthesis of chlorophyll during increased oxidative stress and prolonged darkness differ between annual and perennial flax (Linum L.).

Author

Nisbett, Kenyon J., Alokozai, Abida, Su Hyun Elizabeth Ko, Mott, G. Adam, and Brown, Jason C. L.

Subjects

*OXIDATIVE stress, *LIFE history theory, *CHLOROPHYLL, *PERENNIALS, *FLAX, *PLANT variation

Abstract

Among plants, there is considerable variation in lifespan: annuals live less than one year, whereas perennials live for several years, with the longest-living perennial having survived 43,600 years. As proposed by the Disposable Soma Theory, this lifespan variation among plants likely reflects differential investment of limited energy and nutrient resources, with perennials investing more energy and nutrients into biomolecular maintenance compared to annuals in order to ensure persistence over multiple seasons. Such differential investment may be particularly important during periods of exogenous stress, which are known to accelerate biomolecular damage. The present study evaluated this hypothesis using annual and perennial flax (Linum L.) subjected to two exogenous stressors—increased oxidative stress (i.e., foliar H2O2 spraying) and complete prolonged darkness. As chlorophyll has been shown to exhibit degradation in response to changes in environmental conditions, we utilized changes in chlorophyll levels during and after periods of exogenous stress to evaluate our hypotheses. We predicted that i) perennials would exhibit a slower rate of chlorophyll degradation during exposure to exogenous stressors compared to annuals, and ii) perennials would exhibit a faster rate of chlorophyll resynthesis following such exposure compared to annuals. Chlorophyll levels before, during, and after exposure to both exogenous stressors were measured in two separate trails, once using image colour analysis and once using spectrophotometry. While chlorophyll degradation rates in response to oxidative stress did not differ between annuals and perennials, contrary to our predictions, chlorophyll resynthesis rates following such exposure were significantly higher in perennials, as predicted. When plants were subjected to complete prolonged darkness, chlorophyll degradation rates were significantly lower in perennials than annuals, as predicted; however, when plants were subsequently reintroduced to natural photoperiod, chlorophyll resynthesis rates did not consistently differ between annuals and perennials, though they tended to be higher in the latter, as predicted. Overall, our study illuminates that evolutionary transitions between life history strategies in plants have been accompanied by physiological modifications to chlorophyll dynamics that permit perennial species to better maintain chlorophyll levels—and thus photosynthetic energy acquisition—in the face of exogenous stressors, which likely underlies their capacity to survive for multiple growing seasons. Future studies should explore whether other key biomolecules (e.g., proteins, DNA) are also better maintained in perennial plants, especially in the face of exogenous stress. [ABSTRACT FROM AUTHOR]

Published

2024

31. Genetically correlated leaf tensile and morphological traits are driven by growing season length in a widespread perennial grass.

Author

Durant, P. Camilla, Bhasin, Amit, Juenger, Thomas E., and Heckman, Robert W.

Subjects

*GROWING season, *SWITCHGRASS, *GENETIC correlations, *PERENNIALS

Abstract

Premise: Leaf tensile resistance, a leaf's ability to withstand pulling forces, is an important determinant of plant ecological strategies. One potential driver of leaf tensile resistance is growing season length. When growing seasons are long, strong leaves, which often require more time and resources to construct than weak leaves, may be more advantageous than when growing seasons are short. Growing season length and other ecological conditions may also impact the morphological traits that underlie leaf tensile resistance. Methods: To understand variation in leaf tensile resistance, we measured size‐dependent leaf strength and size‐independent leaf toughness in diverse genotypes of the widespread perennial grass Panicum virgatum (switchgrass) in a common garden. We then used quantitative genetic approaches to estimate the heritability of leaf tensile resistance and whether there were genetic correlations between leaf tensile resistance and other morphological traits. Results: Leaf tensile resistance was positively associated with aboveground biomass (a proxy for fitness). Moreover, both measures of leaf tensile resistance exhibited high heritability and were positively genetically correlated with leaf lamina thickness and leaf mass per area (LMA). Leaf tensile resistance also increased with the growing season length in the habitat of origin, and this effect was mediated by both LMA and leaf thickness. Conclusions: Differences in growing season length may promote selection for different leaf lifespans and may explain existing variation in leaf tensile resistance in P. virgatum. In addition, the high heritability of leaf tensile resistance suggests that P. virgatum will be able to respond to climate change as growing seasons lengthen. [ABSTRACT FROM AUTHOR]

Published

2024

32. MicroRNA164 Affects Plant Responses to UV Radiation in Perennial Ryegrass.

Author

Xu, Chang, Huang, Xin, Ma, Ning, Liu, Yanrong, Xu, Aijiao, Zhang, Xunzhong, Li, Dayong, Li, Yue, Zhang, Wanjun, and Wang, Kehua

Subjects

RYEGRASSES, OZONE layer, LOLIUM perenne, PERENNIALS, PLANT metabolism

Abstract

Increasing the ultraviolet radiation (UV) level, particularly UV-B due to damage to the stratospheric ozone layer by human activities, has huge negative effects on plant and animal metabolism. As a widely grown cool-season forage grass and turfgrass in the world, perennial ryegrass (Lolium perenne) is UV-B-sensitive. To study the effects of miR164, a highly conserved microRNA in plants, on perennial ryegrass under UV stress, both OsmiR164a overexpression (OE164) and target mimicry (MIM164) transgenic perennial ryegrass plants were generated using agrobacterium-mediated transformation, and UV-B treatment (~600 μw cm−2) of 7 days was imposed. Morphological and physiological analysis showed that the miR164 gene affected perennial ryegrass UV tolerance negatively, demonstrated by the more scorching leaves, higher leaf electrolyte leakage, and lower relative water content in OE164 than the WT and MIM164 plants after UV stress. The increased UV sensitivity could be partially due to the reduction in antioxidative capacity and the accumulation of anthocyanins. This study indicated the potential of targeting miR164 and/or its targeted genes for the genetic manipulation of UV responses in forage grasses/turfgrasses; further research to reveal the molecular mechanism underlying how miR164 affects plant UV responses is needed. [ABSTRACT FROM AUTHOR]

Published

2024

33. Adventitious rooting in response to long-term cold: a possible mechanism of clonal growth in alpine perennials.

Author

Mishra, Priyanka, Roggen, Adrian, Ljung, Karin, Albani, Maria C., and Vayssières, Alice

Subjects

MOUNTAIN plants, PERENNIALS, ROOT formation, ASEXUAL reproduction, PLANT growth, MOUNTAIN soils

Abstract

Arctic alpine species experience extended periods of cold and unpredictable conditions during flowering. Thus, often, alpine plants use both sexual and asexual means of reproduction to maximize fitness and ensure reproductive success. We used the arctic alpine perennial Arabis alpina to explore the role of prolonged cold exposure on adventitious rooting. We exposed plants to 4°C for different durations and scored the presence of adventitious roots on the main stem and axillary branches. Our physiological studies demonstrated the presence of adventitious roots after 21 weeks at 4°C saturating the effect of cold on this process. Notably, adventitious roots on the main stem developing in specific internodes allowed us to identify the gene regulatory network involved in the formation of adventitious roots in cold using transcriptomics. These data and histological studies indicated that adventitious roots in A. alpina stems initiate during cold exposure and emerge after plants experience growth promoting conditions. While the initiation of adventitious root was not associated with changes of DR5 auxin response and free endogenous auxin level in the stems, the emergence of the adventitious root primordia was. Using the transcriptomic data, we discerned the sequential hormone responses occurring in various stages of adventitious root formation and identified supplementary pathways putatively involved in adventitious root emergence, such as glucosinolate metabolism. Together, our results highlight the role of low temperature during clonal growth in alpine plants and provide insights on the molecular mechanisms involved at distinct stages of adventitious rooting. [ABSTRACT FROM AUTHOR]

Published

2024

34. Inhibition of co-occurring weeds and young sugarcane seedling growth by perennial sugarcane root extract.

Author

Wang, Xiaoming, Wang, Shilong, Zhu, Jinghuan, Li, Lei, Ma, Junjun, Zuo, Linzhi, Sun, Xiaobo, Chen, Bi, and Yang, Zuli

Subjects

*PLANT extracts, *SUGARCANE, *WEEDS, *SEEDLINGS, *PERENNIALS, *PLANT growth

Abstract

Allelopathy is a process whereby a plant directly or indirectly promotes or inhibits growth of surrounding plants. Perennial sugarcane root extracts from various years significantly inhibited Bidens pilosa, Digitaria sanguinalis, sugarcane stem seedlings, and sugarcane tissue-cultured seedlings (P < 0.05), with maximum respective allelopathies of − 0.60, − 0.62, − 0.20, and − 0.29. Allelopathy increased with increasing concentrations for the same-year root extract, and inhibitory effects of the neutral, acidic, and alkaline components of perennial sugarcane root extract from different years were significantly stronger than those of the control for sugarcane stem seedlings (P < 0.05). The results suggest that allelopathic effects of perennial sugarcane root extract vary yearly, acids, esters and phenols could be a main reason for the allelopathic autotoxicity of sugarcane ratoons and depend on the type and content of allelochemicals present, and that allelopathy is influenced by other environmental factors within the rhizosphere such as the presence of old perennial sugarcane roots. This may be a crucial factor contributing to the decline of perennial sugarcane root health. [ABSTRACT FROM AUTHOR]

Published

2024

35. Belowground morphology as a clue for plant response to disturbance and productivity in a temperate flora.

Author

Klimešová, Jitka and Herben, Tomáš

Subjects

*PLANT morphology, *BOTANY, *PHYTOGEOGRAPHY, *SET functions, *MORPHOLOGY, *PERENNIALS

Abstract

Summary: Plants possess a large variety of nonacquisitive belowground organs, such as rhizomes, tubers, bulbs, and coarse roots. These organs determine a whole set of functions that are decisive in coping with climate, productivity, disturbance, and biotic interactions, and have been hypothesized to affect plant distribution along environmental gradients.We assembled data on belowground organ morphology for 1712 species from Central Europe and tested these hypotheses by quantifying relationships between belowground morphologies and species optima along ecological gradients related to productivity and disturbance. Furthermore, we linked these data with species co‐occurrence in 30 115 vegetation plots from the Czech Republic to determine relationships between belowground organ diversity and these gradients.The strongest gradients determining belowground organ distribution were disturbance severity and frequency, light, and moisture. Nonclonal perennials and annuals occupy much smaller parts of the total environmental space than major types of clonal plants. Forest habitats had the highest diversity of co‐occurring belowground morphologies; in other habitats, the diversity of belowground morphologies was generally lower than the random expectation.Our work shows that nonacquisitive belowground organs may be partly responsible for plant environmental niches. This adds a new dimension to the plant trait spectrum, currently based on acquisitive traits (leaves and fine roots) only. [ABSTRACT FROM AUTHOR]

Published

2024

36. Nitrogen offset potential in a multiyear farmlet-scale study: Milk and herbage production from grazed perennial ryegrass–white clover swards.

Author

Murray, Á., Delaby, L., Gilliland, T.J., and McCarthy, B.

Subjects

*MILK yield, *WHITE clover, *RYEGRASSES, *LOLIUM perenne, *CLOVER, *AGRICULTURE, *PERENNIALS, *NITROGEN fertilizers

Abstract

The objective of this study was to quantify the farm gate nitrogen (N) offset potential of perennial ryegrass (Lolium perenne L.; PRG) white clover (Trifolium repens L.; WC) swards by comparing the herbage and milk production from dairy farmlets that were simulations of full farming systems. A study was established where 120 cows were randomly assigned to 4 farmlets of 10.9 ha (stocking rate: 2.75 cow/ha), composed of 20 paddocks each. Cows were fed 526 kg of DM of concentrate on average each year. The 4 grazing treatments were PRG-only at 150 or 250 kg of N/ha and PRG-WC at 150 or 250 kg of N/ha. Cows remained in their treatment group for an entire grazing season and were re-randomized as they calved across treatments each year. As cows calved in the spring as standard practice in Ireland, they were rotationally grazed from early February both day and night (weather permitting) to mid-November, to a target postgrazing sward height of 4.0 cm. Mean sward WC content was 18.1% and 15.4% for the 150 and 250 kg of N/ha PRG-WC treatments, respectively over the 3-yr period. When WC was included, lowering the N rate did not reduce pregrazing yield, pregrazing height, or herbage removed, but those factors decreased significantly when WC was absent. Total annual herbage DM production was 13,771, 15,242, 14,721, and 15,667 kg of DM/ha for PRG-only swards receiving 150 or 250 kg of N/ha and PRG-WC swards receiving 150 or 250 kg of N/ha, respectively. In addition, when WC was present, compressed postgrazing sward heights were lower (4.10 vs. 4.21 cm) and herbage allowance (approximately 17 kg/cow feed allocation per cow per day) higher than the high-N control (+ 0.7 kg of DM/cow per day). There was a significant increase in milk production, both per cow and per hectare, when WC was included in PRG swards. Over the 3-yr study, cows grazing PRG-WC had greater milk (+304 kg) and milk solids (+31 kg of fat + protein) yields than cows grazing PRG-only swards. This significant increase in milk production suggests that the inclusion of WC in grazing systems can be effectively used to increase milk production per cow and per hectare and help offset nitrogen use. This result shows the potential to increase farm gate N use efficiency and reduce the N surplus compared with PRG-dominant sward grazing systems receiving 250 kg of N/ha, without negatively affecting milk solids yield or herbage production, thus increasing farm profit by €478/ha. [ABSTRACT FROM AUTHOR]

Published

2024

37. Grief Universalism: A Perennial Problem Pattern Returning in Digital Grief Studies?

Author

O'Connor, Mórna

Subjects

*BEREAVEMENT, *GRIEF, *DIGITAL technology, *SCHOLARLY method, *PERENNIALS, *THANATOLOGY, *PRIOR learning

Abstract

The year 2024 marks one decade of scholarship in the new interdisciplinary field of Digital Death, concerning the study of death, dying and grief in the digital age. This paper addresses one key subfield of Digital Death Studies, here termed Digital Grief Studies, which centres on theory, research and design concerning grief in today's digitally saturated contexts. It argues that a classic grand pattern in scholarly treatments of grief—Grief Universalism—with a long, problematic history in Grief and Bereavement Studies, is reappearing in Digital Grief Studies. The Continuing Bonds theory of grief and its application in theory, research and design in Digital Grief Studies is used to demonstrate Grief Universalism in action in our field via hypothetical and fictional examples. This builds toward this paper's big aim: to illustrate what we as an emerging field stand to gain from positioning the established field of Grief and Bereavement Studies as a veritable goldmine of advances—as well as pitfalls, wrong turns, and recurrent problem patterns to be avoided—generated over a hundred years of scholarship concerning human grief. Harnessing this wealth of prior learning and leveraging it toward the furtherance of our field in the coming decade and beyond becomes more crucial as we repel the seemingly perennial magnetism of Grief Universalism, as we operate within an interdisciplinary field vulnerable to Universalism and as yet unaware of its perils, and amid contemporary digital cultures and environments that may preserve and reinforce universalist grief framings. [ABSTRACT FROM AUTHOR]

Published

2024

38. Pushing the limits of C3 intrinsic water use efficiency in Mediterranean semiarid steppes: Responses of a drought‐avoider perennial grass to climate aridification.

Author

Ren, Wei, García‐Palacios, Pablo, Soliveres, Santiago, Prieto, Iván, Maestre, Fernando T., and Querejeta, José Ignacio

Subjects

*WATER efficiency, *DROUGHTS, *STEPPES, *GLOBAL warming, *PERENNIALS, *RAINFALL

Abstract

Intrinsic water use efficiency (WUEi) reflects the trade‐off between photosynthetic carbon gain and water loss through stomatal conductance and is key for understanding dryland plant responses to climate change. Stipa tenacissima is a perennial tussock C3 grass with an opportunistic, drought‐avoiding water use strategy that dominates arid and semiarid steppes across the western Mediterranean region. However, its ecophysiological responses to aridification and woody shrub encroachment, a major land‐use change in drylands worldwide, are not well‐understood.We investigated the variations in leaf stable isotopes (δ18O, δ13C, δ15N), nutrient concentrations (N, P, K), and culm water content and isotopic composition (δ18O, δ2H) of paired pure‐grass and shrub‐encroached S. tenacissima steppes along a 350 km aridity gradient in Spain (10 sites, 160 individuals).Culm water isotopes revealed that S. tenacissima is a shallow‐rooted grass that depends heavily on recent rainwater for water uptake, which may render it vulnerable to increasingly irregular rainfall combined with faster topsoil drying under climate warming and aridification. With increasing aridity, S. tenacissima enhanced leaf‐level WUEi through more stringent stomatal regulation of plant water flux and carbon assimilation (higher δ13C and δ18O), reaching exceptionally high δ13C values (−23‰ to −21‰) at the most arid steppes. Foliar N concentration was remarkably low across sites regardless of woody shrub encroachment, evidencing severe water and N co‐limitation of photosynthesis and productivity. Shrub encroachment decreased leaf P and K but did not affect S. tenacissima water status. Perennial grass cover decreased markedly with both declining winter rainfall and shrub encroachment suggesting population‐level rather than individual‐level responses of S. tenacissima to these changes.The fundamental physiological constraints of photosynthetic C3 metabolism combined with low foliar N content may hamper the ability of S. tenacissima and other drought‐avoider species with shallow roots to achieve further adaptive improvements in WUEi under increasing climatic stress. A drought‐avoiding water use strategy based on early stomatal closure and photosynthesis suppression during prolonged rainless periods may thus compromise the capacity of semiarid S. tenacissima steppes to maintain perennial grass cover, sustain productivity and cope with ongoing climate aridification at the drier parts of their current distribution. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

39. Evidence for Reductions in Physical and Chemical Plant Defense Traits in Island Flora.

Author

Freedman, Micah G., Long, Randall W., Ramírez, Santiago R., and Strauss, Sharon Y.

Subjects

PLANT chemical defenses, CHEMICAL plants, ISLAND plants, CHEMICAL reduction, SHRUBS, LEAF area, PERENNIALS, ORNAMENTAL plants

Abstract

Reduced defense against large herbivores has been suggested to be part of the "island syndrome" in plants. However, empirical evidence for this pattern is mixed. In this paper, we present two studies that compare putative physical and chemical defense traits from plants on the California Channel Islands and nearby mainland based on sampling of both field and common garden plants. In the first study, we focus on five pairs of woody shrubs from three island and three mainland locations and find evidence for increased leaf area, decreased marginal leaf spines, and decreased concentrations of cyanogenic glycosides in island plants. We observed similar increases in leaf area and decreases in defense traits when comparing island and mainland genotypes grown together in botanic gardens, suggesting that trait differences are not solely driven by abiotic differences between island and mainland sites. In the second study, we conducted a common garden experiment with a perennial herb—Stachys bullata (Lamiaceae)—collected from two island and four mainland locations. Compared to their mainland relatives, island genotypes show highly reduced glandular trichomes and a nearly 100-fold reduction in mono- and sesquiterpene compounds from leaf surfaces. Island genotypes also had significantly higher specific leaf area, somewhat lower rates of gas exchange, and greater aboveground biomass than mainland genotypes across two years of study, potentially reflecting a broader shift in growth habit. Together, our results provide evidence for reduced expression of putative defense traits in island plants, though these results may reflect adaptation to both biotic (i.e., the historical absence of large herbivores) and climatic conditions on islands. [ABSTRACT FROM AUTHOR]

Published

2024

40. Perennial and Non‐Perennial Streamflow Regime Shifts Across California, USA.

Author

Ayers, Jessica R., Yarnell, Sarah M., Baruch, Ethan, Lusardi, Robert A., and Grantham, Theodore E.

Subjects

STREAMFLOW, PERENNIALS, RANDOM forest algorithms, MOVING average process, DROUGHTS, DROUGHT forecasting

Abstract

Despite rises in drought frequency and human water demands, streamflow regime shifts from perennial to non‐perennial have not been evaluated in many arid/semi‐arid regions. To document shifts, we created a methodology that classifies streams as naturally perennial or non‐perennial. Our classification used historical, minimally disturbed‐quality USGS streamflow gages (1950–2015) across California. The number of consecutive zero flow days (≥5 days) was used to classify 61% (96/158) and 39% (62/158) of gages as perennial and non‐perennial, respectively. We developed a random forest model to predict flow regime class based on climate and watershed characteristics. To identify regime shifts, we compared the observed class of contemporary (1980–2023) minimally disturbed and disturbed gages with their modeled, natural class. For most minimally disturbed gages, the observed and natural predicted classes were the same, but 13% (7/52) of gages had a modeled perennial regime with an observed non‐perennial class, indicating a drying trend. Among disturbed gages, 22% (64/290) shifted from perennial to non‐perennial and 7% (21/290) from non‐perennial to perennial. Trends in the minimum 7‐day moving average and number of zero‐flow days provided further evidence of drying at minimally disturbed streams, but no pattern at disturbed gages. Our results indicate that few minimally disturbed perennial streams have become non‐perennial to date, but many streams have experienced drying from climate. Streams impacted by human activities had greater drying rates, but regulation has caused some non‐perennial streams to become perennial. By quantifying expected natural streamflow regimes, this work can help monitor, manage, and conserve stream ecosystems. Key Points: Our approach classified 158 historical (1950–2015) minimally disturbed gages as perennial (61%) and non‐perennial (39%) in CaliforniaAmong 52 active minimally disturbed gages, 13% transitioned to non‐perennial (1980–2022), indicating a drying trend in response to climateFor 290 disturbed gages, 29% showed shifts in both directions, highlighting distinct anthropogenic effects on streamflow [ABSTRACT FROM AUTHOR]

Published

2024

41. Shifts in grasses diversity patterns between two contrasting 40‐year climate periods in tropical dry islands.

Author

Duarte, Maria Cristina, Rocha, Vanézia, Fernández‐Palacios, José María, Gomes, Isildo, Neto, Carlos, Costa, José C., Branquinho, Cristina, and Romeiras, Maria M.

Subjects

TROPICAL climate, TRADE winds, SPECIES distribution, ISLANDS, BIBLIOGRAPHY, PERENNIALS

Abstract

Grasses are one of the most successful and dispersed plant families worldwide and their environmental and economic values are widely acknowledged. They dominate the landscape of Cabo Verde, the southernmost and driest archipelago of Macaronesia, and are relevant natural resources for local populations, but a comprehensive evaluation of their distribution patterns is still lacking. In this study, we aim to evaluate the potential effects of climate change using the long‐term data concerning grass distribution in Cabo Verde and the widely recognized climatic variability of this archipelago, which entails a huge irregularity in spatial and temporal rainfall. We identified two contrasting climatic periods (wet, from 1929 to 1968, and dry, from 1969 to 2007) and gathered all the information available from the bibliography, herbaria, and fieldwork concerning spontaneous grass species recorded in Cabo Verde during those two periods, which amounted to 107 taxa. This information was then used to disclose the patterns of grass diversity as related to climatic and topographic variables (altitude and windward vs. leeward aspects). Different altitudinal shifts in the distribution patterns of grass species assemblages and an assemblage specific to the wet period were revealed by comparing the two climatic periods. The role of exposure in delimiting the altitudinal distribution of the various assemblages was highlighted; the trade winds clearly determine the distribution of grass assemblages. We detected shifts in the distribution of grass assemblages according to the climatic periods (related to the macroclimate) and local topographic factors (associated with mesoclimates). Also, functional traits (i.e., annuals vs. perennials, C3 vs. C4 grasses, and tropical vs. temperate species) were found to vary between wet and dry periods, as well as with altitude and with slope aspect. Understanding species distributions and the role of the climatic variability of Cabo Verde is crucial to predicting how climate change will affect them and thus to support effective management and conservation actions. [ABSTRACT FROM AUTHOR]

Published

2024

42. Comparative Analysis of Acidic and Alkaline Pretreatment Techniques for Bioethanol Production from Perennial Grasses.

Author

Johannes, Lovisa Panduleni and Xuan, Tran Dang

Subjects

*ETHANOL as fuel, *PERENNIALS, *LIGNOCELLULOSE, *COMPARATIVE studies, *ARTIFICIAL intelligence, *ENVIRONMENTAL economics

Abstract

This review paper examines acid and alkaline pretreatments on perennial grasses for second-generation (2G) bioethanol production, a relatively unexplored area in this field. It compares the efficiency of these pretreatments in producing fermentable sugar and bioethanol yield. This study finds that alkaline pretreatment is more effective than acidic pretreatment in removing lignin and increasing sugar yield, leading to higher ethanol yields. However, it is costlier and requires longer reaction times than acidic pretreatment, while acidic pretreatment often leads to the formation of inhibitory compounds at higher temperatures, which is undesirable. The economic and environmental impacts of lignocellulosic biomass (LCB) are also assessed. It is revealed that LCB has a lower carbon but higher water footprint and significant costs due to pretreatment compared to first-generation biofuels. This review further explores artificial intelligence (AI) and advanced technologies in optimizing bioethanol production and identified the gap in literature regarding their application to pretreatment of perennial grasses. This review concludes that although perennial grasses hold promise for 2G bioethanol, the high costs and environmental challenges associated with LCB necessitate further research. This research should focus on integrating AI to optimize the pretreatment of LCB, thereby improving efficiency and sustainability in 2G biofuel production. [ABSTRACT FROM AUTHOR]

Published

2024

43. Crop Conversion from Annual to Perennials: An Effective Strategy to Affect Soil Multifunctionality.

Author

Liu, Panpan, Wang, Dong, Li, Yue, Liu, Ji, Cui, Yongxing, Liang, Guopeng, Wang, Chaoqun, Wang, Chao, Moorhead, Daryl L., and Chen, Ji

Subjects

*SUSTAINABLE agriculture, *PERENNIALS, *CROPS, *AGRICULTURE, *ACID phosphatase, *LOLIUM perenne, *LEGUMES, *BIOMASS conversion

Abstract

Although crop conversion from annual to perennial crops has been considered as one path towards climate-smart and resource-efficient agriculture, the effects of this conversion on soil multifunctionality and biomass yields remain unclear. The objective of the study is to enhance soil multifunctionality while exerting a marginal influence on farmer income. Here, we investigated the effects of annual winter wheat (Triticum aestivum L.) and two perennial crops (a grass (Lolium perenne L.), a legume (Medicago sativa L.), and their mixture) on soil multifunctionality and biomass yield on the Yellow River floodplain. Soil multifunctionality was assessed by the capacity of water regulation and the multifunctionality of carbon (C), nitrogen (N), and phosphorus (P) cycles. C cycle multifunctionality index is the average of β-xylosidase, β-cellobiosidase, and β-1, 4-glucosidase. N cycle multifunctionality index is the average of L-leucine aminopeptidase and β-1, 4-N-acetyl-glucosaminidase, and acid phosphatase represented (and dominated) P cycle functions. The results showed that perennial crops enhanced soil multifunctionality by 207% for L. perenne, 311% for M. sativa, and 438% for L. perenne + M. sativa, compared with annual winter wheat (T. aestivum). The effect of perennial crops on soil multifunctionality increased with infiltration rate, dissolved organic C, microbial biomass C, and extracellular enzymatic activities for both C and N acquisition. However, we observed that perennial crops had a lower biomass yield than annual crop. Therefore, the transition of agricultural landscapes to perennials needs to take into account the balance between environmental protection and food security, as well as environmental heterogeneity, to promote sustainable agricultural development. [ABSTRACT FROM AUTHOR]

Published

2024

44. Advances in Legume Systematics 14. Classification of Caesalpinioideae. Part 2: Higher-level classification.

Author

Bruneau, Anne, de Queiroz, Luciano Paganucci, Ringelberg, Jens J., Borges, Leonardo M., Bortoluzzi, Roseli Lopes da Costa, Brown, Gillian K., Cardoso, Domingos B. O. S., Clark, Ruth P., Conceição, Adilva de Souza, Cota, Matheus Martins Teixeira, Demeulenaere, Else, de Stefano, Rodrigo Duno, Ebinger, John E., Ferm, Julia, Fonseca-Cortés, Andrés, Gagnon, Edeline, Grether, Rosaura, Guerra, Ethiéne, Haston, Elspeth, and Herendeen, Patrick S.

Subjects

*CAESALPINIACEAE, *WOODY plants, *LEGUMES, *BOTANICAL specimens, *TELECOMMUNICATION systems, *PERENNIALS

Abstract

Caesalpinioideae is the second largest subfamily of legumes (Leguminosae) with ca. 4680 species and 163 genera. It is an ecologically and economically important group formed of mostly woody perennials that range from large canopy emergent trees to functionally herbaceous geoxyles, lianas and shrubs, and which has a global distribution, occurring on every continent except Antarctica. Following the recent re-circumscription of 15 Caesalpinioideae genera as presented in Advances in Legume Systematics 14, Part 1, and using as a basis a phylogenomic analysis of 997 nuclear gene sequences for 420 species and all but five of the genera currently recognised in the subfamily, we present a new higher-level classification for the subfamily. The new classification of Caesalpinioideae comprises eleven tribes, all of which are either new, reinstated or re-circumscribed at this rank: Caesalpinieae Rchb. (27 genera / ca. 223 species), Campsiandreae LPWG (2 / 5–22), Cassieae Bronn (7 / 695), Ceratonieae Rchb. (4 / 6), Dimorphandreae Benth. (4 / 35), Erythrophleeae LPWG (2 /13), Gleditsieae Nakai (3 / 20), Mimoseae Bronn (100 / ca. 3510), Pterogyneae LPWG (1 / 1), Schizolobieae Nakai (8 / 42–43), Sclerolobieae Benth. & Hook. f. (5 / ca. 113). Although many of these lineages have been recognised and named in the past, either as tribes or informal generic groups, their circumscriptions have varied widely and changed over the past decades, such that all the tribes described here differ in generic membership from those previously recognised. Importantly, the approximately 3500 species and 100 genera of the former subfamily Mimosoideae are now placed in the reinstated, but newly circumscribed, tribe Mimoseae. Because of the large size and ecological importance of the tribe, we also provide a clade-based classification system for Mimoseae that includes 17 named lower-level clades. Fourteen of the 100 Mimoseae genera remain unplaced in these lower-level clades: eight are resolved in two grades and six are phylogenetically isolated monogeneric lineages. In addition to the new classification, we provide a key to genera, morphological descriptions and notes for all 163 genera, all tribes, and all named clades. The diversity of growth forms, foliage, flowers and fruits are illustrated for all genera, and for each genus we also provide a distribution map, based on quality-controlled herbarium specimen localities. A glossary for specialised terms used in legume morphology is provided. This new phylogenetically based classification of Caesalpinioideae provides a solid system for communication and a framework for downstream analyses of biogeography, trait evolution and diversification, as well as for taxonomic revision of still understudied genera. [ABSTRACT FROM AUTHOR]

Published

2024

45. Age‐related changes in root dynamics of a novel perennial grain crop.

Author

Woeltjen, Stella, Gutknecht, Jessica, and Jungers, Jacob

Subjects

*PLANT roots, *PERENNIALS, *PLANT biomass, *WHEAT, *CARBON in soils

Abstract

Background: Standing root biomass stocks are larger in the perennial grain intermediate wheatgrass (IWG; Thinopyrum intermedium [Host] Barkworth and Dewey) than annual spring wheat (Triticum aestivum L.). However, previous studies have not separated root growth from root decomposition, which presents a significant gap in our understanding of how roots can contribute to soil organic carbon (C) accrual or other soil properties through time. Methods: We used paired sequential coring and root ingrowth cores to measure standing root stock, new root production, root decomposition, and decomposed root C and N from 0 to 15 cm soil depth of 1‐year‐old IWG (IWG‐1), 2‐year‐old IWG (IWG‐2), and annual spring wheat. Results: Standing root stock was 3.2–6.5 and 6.3–9.9 times higher in IWG‐1 and IWG‐2 than wheat. Total root production was 1.7 times greater in IWG‐1 than IWG‐2. Conversely, root decomposition almost doubled from 1.39 to 2.43 kg m−3 between IWG‐1 and IWG‐2. Conclusions: In IWG, decreased root production and increased root decomposition with stand age suggest a change in growth strategy that could reduce the contribution of root‐derived C to stabilized soil C pools as IWG stands age. [ABSTRACT FROM AUTHOR]

Published

2024

46. Effect of Guano Fertilisation on Yield and Some Quality Traits of Perennial Ryegrass Biomass.

Author

Możdżer, Ewa

Subjects

POULTRY manure, PERENNIALS, RYEGRASSES, AMMONIUM nitrate, BIOMASS, HEAVY metals, LOLIUM perenne

Abstract

Due to the lack of conclusive articles on the effect of guano, which is classified as a natural fertiliser, an experiment was conducted to evaluate its effect on the yield and quality of perennial ryegrass of the Rela variety. The guano used in the experiment contained significant concentrations in g·kg-1 DM of nitrogen (23.1), phosphorus (9.52) and magnesium (2.90). The concentration of heavy metals did not exceed the applicable standards in organic fertilisers. The total content of N and P in guano was higher relative to K, and Mg and Ca were similar. The concentration of N and Mg in guano is comparable to the content of these elements in poultry manure. The guano reaction was slightly acidic (5.86). The fertiliser value of guano was assessed in a vegetation-weed two-factor experiment. The test scheme included control, guano and guano with ammonium nitrate applied at three doses. The dry biomass yield of perennial ryegrass from individual cuts varied considerably. The objects with applied guano and guano with ammonium nitrate increased the average yield of perennial ryegrass from cut 1 by 102.9% compared to the control object. Applied guano fertilisation significantly increased the sum of perennial ryegrass yield from three cuts. As a result of the applied fertilisation, there was an increase in N, P and Ca content in perennial ryegrass, while K and Mg content increased to a negligible extent and thus contributed to optimal ionic ratios of Ca:P and K:(Ca+Mg). In contrast, the ionic ratio K:Mg deviated significantly from the optimal values for plants. The application of guano and guano with ammonium nitrate influenced the positive correlation between N and Ca content and the obtained yield of perennial ryegrass. [ABSTRACT FROM AUTHOR]

Published

2024

47. Divergent evolution of NLR genes in the genus Glycine: impacts of annuals and perennials’ life history strategies

Author

Abu Bakar Sultan, Humera Nawaz, Fozia Saleem, Sehar Nawaz, Muhammad Danial, Romana Iftikhar, Umer Maqsood, Amna Areej, Sidra Shakoor, Nada H. Aljarba, Rizwan Maqbool, Muhammad Rizwan, and Saad Serfraz

Subjects

glycine, perennials, annuals, NLR genes, diversification, evolution, Plant culture, SB1-1110

Abstract

Within the family Fabaceae, the genus Glycine is composed of two subgenera annuals (2n=40) and perennials. This life strategy transition may have differentially affected the evolution of various gene families. Its cultivated species G. max has high level of susceptibility to major pathogens including viruses, bacteria and fungi. Understanding nucleotide-binding domain leucine-rich repeat (NLR) genes evolution in soybean is of paramount importance due to their central role in plant immunity and their potential in improving disease resistance in soybean cultivars. In this study, we investigated the significance of this annual-perennial transition on the macroevolution of NLR genes in the genus Glycine. Our results reveal a remarkable distinction between annual species such as Glycine max and Glycine soja, which exhibit an expanded NLRome compared to perennial species (G. cyrtoloba, G. stenophita, G. dolichocarpa, G. falcata, G. syndetika, G. latifolia and G. tomentella). Our evolutionary timescale analysis pinpoints recent accelerated gene duplication events for this expansion, which occurred between 0.1 and 0.5 million years ago, driven predominantly by lineage-specific and terminal duplications. In contrast, perennials initially experienced significant contraction during the diploidisation phase following the Glycine-specific whole-genome duplication event (~10 million years ago). Despite the reduction in the NLRome, perennial lineages exhibit a unique and highly diversified repertoire of NLR genes with limited interspecies synteny. The investigation of gene gain and loss ratios revealed that this diversification resulted from the birth of novel genes following individual speciation events. Among perennials, G. latifolia, a well-known resistance resource, has the highest ratio of these novel genes in the tertiary gene pool. Our study suggests evolutionary mechanisms, including recombination and transposition, as potential drivers for the emergence of these novel genes. This study also provides evidence for the unbalanced expansion of the NLRome in the Dt subgenome compared with the At subgenome in the young allopolyploid G. dolichocarpa. To the best of our knowledge, this is the first study to investigate the effect of annuality and perenniality life transition on the evolution of NLR genes in the genus Glycine to identify its genomics resources for improving the resistance of soybean crop with global importance on the economy and food security.

Published

2024

48. PERENNIAL Perks.

Author

SMITH, LEAH

Subjects

JERUSALEM artichoke, FENNEL, LEMON balm, UNDERSTORY plants, HERBACEOUS plants, PERENNIALS, DAYLILIES

Abstract

Perennial plants and plantings have several advantages, including improving soil quality, increasing drought resistance, and providing a more mineral-rich food source. Perennials also require less maintenance and can extend the fresh food eating season throughout the year. However, there are drawbacks to consider, such as the unfamiliarity of some perennial edibles and the time it takes for them to establish. Careful planning and placement of perennial plants is necessary, and permaculture designs can be used to maximize their benefits. There are many perennial vegetables and fruits to choose from, each with its own unique qualities and flavors. Perennial plants also have environmental advantages, such as carbon sequestration and providing habitat for beneficial insects and wildlife. [Extracted from the article]

Published

2024

49. Management impacts on organic carbon under continuous perennial grass, perennial grass-legume mixture, and annual cereals on a thick Black Chernozemic soil.

Author

Mapfumo, E., Baron, V.S., Lemke, R., Naeth, M.A., Chanasyk, D.S., and Dick, Campbell

Subjects

BLACK cotton soil, GRASSES, PERENNIALS, BROMEGRASSES, SOIL management, SILAGE, TRITICALE, FORAGE plants

Abstract

Impacts of annual and perennial pasture management on soil organic carbon (SOC) and equivalent SOC stocks (equal soil mass basis) were investigated in two trials [CAESA (1994–1997) and BMP (2008–2012) trials] conducted on the same experimental paddocks at Lacombe, AB. The original site was broken from perennial grass in 1992, and the CAESA trial established in 1993. Between 1994 and 1997, half of the paddocks included winter triticale and a mixture of triticale and spring barley; half included smooth and meadow bromegrass; and each paddock was light, medium, or heavily grazed. The BMP trial (2008–2012) on the same paddocks included fertilized, direct seeded barley as silage; grazing and haying of unfertilized meadow bromegrass, fertilized meadow bromegrass, and meadow bromegrass and alfalfa mixture; and unfertilized oldgrass that was continuous since 1994. Between trials (1998–2007), all paddocks received no fertilizer. In the 0–15 cm depth, SOC under oldgrass was constant between 1994 and 2012 and averaged 88 Mg C ha−1. Under barley silage, SOC decreased from 89 to 72 Mg C ha−1 by 2012. Between 1994 and 2012, SOC decreased in all treatments re-established on original annual forage (1994–1998) but not to the level of barley silage. Light fraction carbon was the highest under oldgrass and the lowest under barley silage. Overall, oldgrass with no fertilizer inputs maintained a constant SOC, although annuals reduced SOC stocks. Re-establishment of perennial grass with grazing may therefore reduce SOC loss, whereas haying perennial grass may not reduce SOC loss. [ABSTRACT FROM AUTHOR]

Published

2024

50. Photosynthetic gas exchange, plant water relations and osmotic adjustment of three tropical perennials during drought stress and re-watering.

Author

He, Jie, Ng, Klaudia, Qin, Lin, Shen, Yuanjie, Rahardjo, Harianto, Wang, Chien Looi, Kew, Huiling, Chua, Yong Chuan, Poh, Choon Hock, and Ghosh, Subhadip

Subjects

*PLANT-water relationships, *AQUATIC plants, *DEFICIT irrigation, *DROUGHTS, *SLOPE stability, *DROUGHT tolerance, *PERENNIALS

Abstract

Planting vegetation on slopes is an effective way of improving slope stability while enhancing the aesthetic appearance of the landscape. However, plants growing on slopes are susceptible to natural drought stress (DS) conditions which commonly lead to water deficit in plant tissues that affect plant health and growth. This study investigated the photosynthetic gas exchange, plant water status and proline accumulation of three tropical perennials namely Clerodendrum paniculatum, Ipomoea pes-caprae and Melastoma malabathricum after being subjected to DS and re-watering (RW). During DS, there was a significant decrease in light-saturated photosynthetic CO2 assimilation rate (Asat), stomatal conductance (gs sat), and transpiration rate (Tr) for all three plant species. Leaf relative water content, shoot water potential, and leaf, stem and root water content also declined during DS. Proline concentration increased for all three species during DS, reaching especially high levels for C. paniculatum, suggesting that it heavily relies on the accumulation of proline to cope with DS. Most of the parameters recovered almost completely to levels similar to well-watered plants after RW, apart from M. malabathricum. Strong linear correlations were found between Asat and gs sat and between gs sat and Tr. Ultimately, C. paniculatum and I. pes-caprae had better drought tolerance than M. malabathricum. [ABSTRACT FROM AUTHOR]

Published

2024