Your search keyword '"Grasses"' showing total 55,906 results

1. Paul Sorensen gardens in the New England district: Traces from the archives

Author

Chappell, Liz, Read, Stuart, and Oates, Bill

Published

2024

2. Annual and seasonal dry matter production, botanical species composition, and nutritive value of multispecies, permanent pasture, and perennial ryegrass swards managed under grazing.

Author

Shackleton, Jane, Boland, Tommy M., Kennedy, Jean, Grace, Cornelia, Beaucarne, Gaspard, Kirwan, Stuart F., Schmidt, Olaf, and Sheridan, Helen

Subjects

*LOLIUM perenne, *GRASSES, *GRAZING, *PASTURES, *HERBS

Abstract

Reduced reliance on inputs such as fertilizer is fundamental to sustainable grazing systems. This two‐year study compared four sward types, including multispecies swards (MSS), for herbage dry matter (DM) production, species contribution to DM, and herbage nutritive value under grazing. The systems were: (1) Lolium perenne L. monoculture (PRG; 170 kg N ha−1 year−1); (2) permanent pasture (PP; 135 kg N ha−1 year−1), (3) six species sward consisting of two grasses, two legumes and two herbs (6S; 70 kg N ha−1 year−1), (4) twelve species sward consisting of three grasses, four legumes and five herbs (12S; 70 kg N ha−1 year−1). Herbage samples were collected for DM yield, botanical composition, and nutritive value. Mean annual DM production for PRG, PP, 6S, and 12S was 11,374, 8526, 13,783, and 13,338 kg DM ha−1 respectively. Herb proportions decreased in 6S and 12S from 2020 to 2021 while grass proportions increased. Mean crude protein levels were similar across all systems (p > 0.05), with higher ash content in 6S and 12S compared to PRG (p < 0.001). Organic matter digestibility was lowest in PP compared to PRG (p < 0.001) while neutral detergent fibre content of PP and PRG were greater than 6S and 12S (p < 0.001). Water soluble carbohydrate content was highest in PRG (p < 0.0001). Over 2 years, MSS delivered increased herbage DM yield and nutritive quality relative to PRG and PP swards, from reduced N inputs. However, maintenance of the herb component of MSS is a challenge. [ABSTRACT FROM AUTHOR]

Published

2024

3. Belowground growth strategies of native and invasive rhizomatous perennial grasses in response to precipitation variability, clipping, and competition.

Author

Bam, Surendra, Ott, Jacqueline P., Butler, Jack L., and Xu, Lan

Subjects

*PRECIPITATION variability, *CHEATGRASS brome, *PLANT invasions, *CROWNS (Botany), *GRASSES, *BROMEGRASSES

Abstract

Invasive clonal species may exhibit different growth strategies than their native clonal competitors. In this study, we examined the spatial distribution of tiller outgrowth and the bud bank by comparing the investment in phalanx versus guerilla growth of a native and invasive perennial grass in North America. We also examined the effect of altered precipitation frequency, clipping, and competition on their clonal growth strategies. Investment in phalanx and guerilla growth was assessed by examining live propagule and tiller production from the plant crown versus its rhizomes. Although invasive Bromus inermis and native Pascopyrum smithii exhibited similar clonal growth strategies as young seedlings, their clonal growth strategies significantly differed by the end of their first growing season. Pascopyrum smithii invested in dual phalanx and guerilla tiller outgrowth and bud placement, and B. inermis primarily invested in phalanx tiller outgrowth and bud placement. Competition rather than intra-annual precipitation variability and clipping altered the clonal growth strategy of these species. Intra- and inter- specific competition did not alter tiller outgrowth for either species. However, inter-specific competition caused both species to alter their bud placement. Bromus inermis shifted more buds from phalanx to guerilla positions while P. smithii shifted in the opposite direction. This may enable invasive B. inermis to expand while confining native P. smithii to more localized areas in the future. Clonal growth strategies appear to be species specific and responsive to inter-specific competition. Investigating the belowground bud aspect of clonal growth can reveal the mechanism driving the future aboveground clonal growth strategy of native and invasive rhizomatous grasses and help inform the patterns of invasion within a plant community. [ABSTRACT FROM AUTHOR]

Published

2024

4. Growth responses to waterlogging stress among cool‐season grass species.

Author

Braun, Ross C. and Patton, Aaron J.

Subjects

*SOIL infiltration, *LOLIUM perenne, *WATERLOGGING (Soils), *FESCUE, *AGROSTIS

Abstract

Urban grasslands span climates and topography in soils with variable water infiltration and drainage rates that result in occasional waterlogging stress, while data on grass species tolerance to waterlogging stress is scant. Whole plant responses to waterlogging stress among cool‐season grass species were quantified in a controlled environment. The following grasses were grown in well‐drained vs. waterlogged soil for 55 d: strong creeping red fescue (Festuca rubra ssp. rubra), slender creeping red fescue (F. rubra ssp. littoralis), Chewings fescue (F. rubra ssp. commutata), hard fescue (F. brevipila), tall fescue (F. arundinacea syn. Schedonorus arundinaceus), Kentucky bluegrasses (Poa pratensis), annual bluegrass (P. annua), rough bluegrass (P. trivialis), creeping bentgrass (Agrostis stolonifera), perennial ryegrass (Lolium perenne), and alkaligrass (Puccinellia distans). Five cultivars of each fine fescue (Festuca spp.) taxon were included for comparison. When grown in waterlogged soil compared to well‐drained conditions, relative differences generally ranged from −3% to −26% (shoots) and −13% to −33% (roots) for creeping bentgrass, tall fescue, and Kentucky bluegrass indicating higher waterlogging stress tolerance. The relative differences ranged from −18% to −43% in shoots and −3% to −34% in roots for annual bluegrass and perennial ryegrass indicating fair performance under waterlogging stress. Fine fescues, rough bluegrass, and alkaligrass exhibited the poorest performance during waterlogging stress with plant responses ranging from −12% to −64% (shoots) and −17% to −73% (roots). Negative whole plant responses among cultivars of four fine fescue taxa were similar. The selection of grasses tolerant to waterlogging stress will be important in developing resilient landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

5. Morphological and Productive Correlations of Cutting Pennisetum Varieties Under Conditions of Peruvian Humid Tropics.

Author

Pinchi-Carbajal, S. F., Quispe-Ccasa, H. A., Ampuero-Trigoso, G., Nolasco-Lozano, E., and Saucedo-Uriarte, J. A.

Subjects

*PENNISETUM, *BIOMASS production, *LIVESTOCK farms, *CHLOROPHYLL, *GRASSES

Abstract

Livestock farming in the Peruvian tropics is based on the use of grazing forage, but cutting grasses offers greater productivity and seasonality advantages. In this study, the morphological and productive characteristics of King Grass Morado (KGM), Cuba OM-22 (CU), and Maralfalfa (MA) were evaluated and correlated with chlorophyll content under Peruvian humid tropic conditions. Five plots of 1 ha each were installed for the three Pennisetum varieties (2-1-2), with three samples per plot. No significant differences were found in plant height, leaf length, number of nodes, number of leaves/stem, number of stems, stem circumference, length of nodes, leaf, stems, and total weight, chlorophyll index (atLEAF CLOR), performance index (API), and dry matter. KGM stood out in tillering (12.86) (p<0.01), but CU and MA showed greater leaf width (4.16 and 4.42 cm, respectively) (p<0.05). The calculated biomass production was 40.3 t/ha for KGM, 24.5 t/ha for MA, and 76.5 t/ha for CU. MA had higher nitrogen (0.70%) and protein (4.33%) contents (p<0.01). The correlations were significant between stem height with the number of nodes and leaf width, stem circumference with stem, leaf, and total weight (p<0.05), and nitrogen and protein content were estimated with the atLEAF CLOR and API values of the basal leaves with R2 = 0.548 and R2 = 0.563, respectively (p<0.05). In conclusion, KGM, CU, and MA differed in some morphological and productive variables and were correlated with others; furthermore, the protein content could be estimated with the atLEAF CLOR and API values in these Pennisetum varieties. [ABSTRACT FROM AUTHOR]

Published

2024

6. <italic>Arthrobotrys chinensis</italic>, a novel fungal species on marbled bamboo (<italic>Chimonobambusa marmorea</italic>) leaves in Sichuan Province, China.

Author

Jin, Yan, Liu, Jing-Wen, Liu, Jian-Kui, and Maharachchikumbura, Sajeewa S. N.

Subjects

*FILAMENTOUS fungi, *CONIDIA, *PHYLOGENY, *GRASSES, *ASCOMYCETES

Abstract

During an ongoing survey on fungal diversity in Sichuan Province, China, a white filamentous fungus growing on decaying marbled bamboo (Chimonobambusa marmoreal) leaves was collected. Upon conducting the initial morphological diagnosis and BLASTn searches, the new collection was assigned to the genus Arthrobotrys. A multi-locus phylogeny, based on a concatenated dataset (SSU-ITS-LSU-TEF1-RPB2), revealed the new collection in close phylogenetic proximity to Arthrobotrys eryuanensis and A. hyrcanus. However, they differ in shape and size of conidia. The conidia of the new collection are comparatively shorter than those of A. hyrcanus and wider than those of A. eryuanensis. Based on the difference in morphology and molecular data, we proposed the new collection as a new species, Arthrobotrys chinensis sp. nov. Detailed morphological characteristics, illustrations, and an updated phylogeny is provided for the new species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Growth, yield, andrographolide content and total antioxidant activity of <italic>Kalmegh</italic> [<italic>Andrographis paniculata</italic> (Burm. f.) Wall. ex Nees] under variable nitrogen rates and organic manures application in Indo-Gangetic plains of India.

Author

Verma, Himanshu, Negi, M. S., Mahapatra, B. S., Shukla, Anil, Paul, Jai, Bhatt, Manoj Kumar, Singh, S. P., and Prakash, Om

Subjects

*POULTRY manure, *MANURES, *GRASSES, *VERMICOMPOSTING, *FERTILITY, *CROPS

Abstract

AbstractKalmegh is an important medicinal crop because of the most important biologically active phyto-chemical called andrographolide. Production of higher herbage yields with appropriate quality in terms of andrographolide is largely dependent upon efficient nutrient management. This study aimed to assess the effect of organic manures application and variable nitrogen rates on growth, yield, andrographolide content and total antioxidant activity of Kalmegh. The experiment was laid out in split plot design with three levels of organic manures [M1- Control, M2- vermicompost @ 5 t ha−1 and M3- poultry manure @ 5 t ha−1] and four fertility levels [F1- 0: 50: 50, F2- 50: 50: 50, F3- 75 (37.5 + 37.5): 50: 50 and F4- 75: 50: 50 kg ha−1 N, P2O5 and K2O, respectively] replicated thrice. The highest dry herbage yields and andrographolide content of kalmegh were recorded with vermicompost @ 5 t ha−1 + 75 (37.5 + 37.5): 50: 50 N, P2O5 and K2O kg ha−1 followed by poultry manure @ 5 t ha−1 + 75 (37.5 + 37.5): 50: 50 N, P2O5 and K2O kg ha−1 during both the years while, lower yields due to control. Dry herbage and andrographolide yield were found to be highest in M2×F3 compared with M1×F1. Our study concluded that the application of vermicompost @ 5 t ha−1 along with 75 kg ha−1 N in two splits and 50 kg ha−1of each P2O5 and K2O resulted higher yield and andrographolide content which, would provide better soil nutrient status in sustainable manner without affecting ecological balances. [ABSTRACT FROM AUTHOR]

Published

2024

8. The origin and morphological character evolution of the paleotropical woody bamboos.

Author

Liu, Jing‐Xia, Guo, Cen, Ma, Peng‐Fei, Zhou, Meng‐Yuan, Luo, Ya‐Huang, Zhu, Guang‐Fu, Xu, Zu‐Chang, Milne, Richard I, Vorontsova, Maria S., and Li, De‐Zhu

Subjects

*BIOLOGICAL evolution, *SINGLE nucleotide polymorphisms, *CARYOPSES, *DNA sequencing, *GRASSES

Abstract

ABSTRACT The woody bamboos (Bambusoideae) exhibit distinctive biological traits within Poaceae, such as highly lignified culms, rapid shoot growth, monocarpic mass flowering and nutlike or fleshy caryopses. Much of the remarkable morphological diversity across the subfamily exists within a single hexaploid clade, the paleotropical woody bamboos (PWB), making it ideal to investigate the factors underlying morphological evolution in woody bamboos. However, the origin and biogeographical history of PWB remain elusive, as does the effect of environmental factors on the evolution of their morphological characters. We generated a robust and time‐calibrated phylogeny of PWB using single nucleotide polymorphisms retrieved from optimized double digest restriction site associated DNA sequencing, and explored the evolutionary trends of habit, inflorescence, and caryopsis type in relation to environmental factors including climate, soil, and topography. We inferred that the PWB started to diversify across the Oligocene–Miocene boundary and formed four major clades, that is, Melocanninae, Racemobambosinae s.l. (comprising Dinochloinae, Greslanlinae, Racemobambosinae s.str. and Temburongiinae), Hickeliinae and Bambusinae s.l. (comprising Bambusinae s.str. plus Holttumochloinae). The ancestor of PWB was reconstructed as having erect habit, indeterminate inflorescence and basic caryopsis. The characters including climbing/scrambling habit, determinate inflorescence, and nucoid/bacoid caryopsis have since undergone multiple changes and reversals during the diversification of PWB. The evolution of all three traits was correlated with, and hence likely influenced by, aspects of climate, topography, and soil, with climate factors most strongly correlated with morphological traits, and soil factors least so. However, topography had more influence than climate or soil on the evolution of erect habit, whereas both factors had greater effect on the evolution of bacoid caryopsis than did soil. Our results provide novel insights into morphological diversity and adaptive evolution in bamboos for future ecological and evolutionary research. [ABSTRACT FROM AUTHOR]

Published

2024

9. Evaluation of Changes in the Chemical Composition of Grasses as a Result of the Methane Fermentation Process and Biogas Production Efficiency.

Author

Waliszewska, Bogusława, Waliszewska, Hanna, Grzelak, Mieczysław, Majchrzak, Leszek, Gaweł, Eliza, Murawski, Maciej, Sieradzka, Agnieszka, Vaskina, Iryna, and Spek-Dźwigała, Agnieszka

Subjects

*METHANE fermentation, *CHEMICAL composition of plants, *BIOMASS energy, *DEGREE of polymerization, *RENEWABLE energy sources, *BIOGAS production, *BIOGAS

Abstract

Methane fermentation, which is one of the key processes in biogas production, plays an important role in the conversion of biomass to energy. During this process, changes occur in the chemical composition of organic feedstocks, including the chemical composition of grasses. The assessment of these changes is crucial for the efficiency and productivity of biogas production. The material for this study comprised fully mature grass blades with leaves and inflorescences and was collected from extensively used meadows and pastures, as well as cultivated and set-aside areas in the Wielkopolskie Voivodeship, the communes of Białośliwie and Trzcianka, Poland. The aim of this study was to compare methane fermentation efficiency in nine grass species and identify the biomass component involved in biogas production. The results indicate that the fermentation process, as expected, changed the cellulose content. The lignin content of the grasses before fermentation varied more than the cellulose content. The content of holocellulose (sum of carbohydrate components) in the grasses ranged from 59.77 to 72.93% before fermentation. Methane fermentation significantly reduced the carbohydrate content in the grasses, with a low degree of polymerization. Grassland biomass-based biogas production is a viable alternative to conventional fossil fuels. [ABSTRACT FROM AUTHOR]

Published

2024

10. Genetic analyses of embryo homology and ontogeny in the model grass Zea mays subsp. mays.

Author

Wu, Hao, Zhang, Ruqiang, and Scanlon, Michael J.

Subjects

*DEVELOPMENTAL genetics, *LEAF development, *ONTOGENY, *GRASSES, *EMBRYOS, *COTYLEDONS, *CORN

Abstract

Summary: The homology of the single cotyledon of grasses and the ontogeny of the scutellum and coleoptile as the initial, highly modified structures of the grass embryo are investigated using leaf developmental genetics and targeted transcript analyses in the model grass Zea mays subsp. mays.Transcripts of leaf developmental genes are identified in both the initiating scutellum and the coleoptile, while mutations disrupting mediolateral leaf development also disrupt scutellum and coleoptile morphology, suggesting that these grass‐specific organs are modified leaves.Higher‐order mutations in WUSCHEL‐LIKE HOMEOBOX3 (WOX3) genes, involved in mediolateral patterning of plant lateral organs, inform a model for the fusion of coleoptilar margins during maize embryo development.Genetic, RNA‐targeting, and morphological evidence supports models for cotyledon evolution where the scutellum and coleoptile, respectively, comprise the distal and proximal domains of the highly modified, single grass cotyledon. [ABSTRACT FROM AUTHOR]

Published

2024

11. EPAD1 Orthologs Play a Conserved Role in Pollen Exine Patterning.

Author

Li, Huanjun, Hua, Miaoyuan, Tariq, Naveed, Li, Xian, Zhang, Yushi, Zhang, Dabing, and Liang, Wanqi

Subjects

*POLLEN dispersal, *GRASSES, *SORGHUM, *POLLEN, *BARLEY

Abstract

The pollen wall protects pollen during dispersal and is critical for pollination recognition. In the Poaceae family, the pollen exine stereostructure exhibits a high degree of conservation with similar patterns across species. However, there remains controversy regarding the conservation of key factors involved in its formation among various Poaceae species. EPAD1, as a gene specific to the Poaceae family, and its orthologous genes play a conserved role in pollen wall formation in wheat and rice. However, they do not appear to have significant functions in maize. To further confirm the conserved function of EPAD1 in Poaceae, we performed an analysis on four EPAD1 orthologs from two distinct sub-clades within the Poaceae family. The two functional redundant barley EPAD1 genes (HvEPAD1 and HvEPAD2) from the BOP clade, along with the single copy of sorghum (SbEPAD1) and millet (SiEPAD1) from the PACMAD clade were examined. The CRISPR-Cas9-generated mutants all exhibited defects in pollen wall formation, consistent with previous findings on EPAD1 in rice and wheat. Interestingly, in barley, hvepad2 single mutant also showed apical spikelets abortion, aligning with a decreased expression level of HvEPAD1 and HvEPAD2 from the apical to the bottom of the spike. Our finding provides evidence that EPAD1 orthologs contribute to Poaceae specific pollen exine pattern formation via maintaining primexine integrity despite potential variations in copy numbers across different species. [ABSTRACT FROM AUTHOR]

Published

2024

12. Comparison of Festuca glauca 'Uchte' and Festuca amethystina 'Walberla' Varieties in a Simulated Extensive Roof Garden Environment.

Author

Hamar-Farkas, Dóra, Kisvarga, Szilvia, Ördögh, Máté, Orlóci, László, Honfi, Péter, and Kohut, Ildikó

Subjects

GREEN roofs, ROOF gardening, ORNAMENTAL plants, NATIVE species, FESCUE

Abstract

One of the most effective means of increasing urban green areas is the establishment of roof gardens. They have many positive properties and ecological functions, such as filling empty spaces with plants, protecting buildings, dust retention and air cleaning. In the case of extensive constructions, mostly Sedum species are used, planted as carpet-like "grass" sods or by installing modular units as plugs; however, with the use of other plant genera, the efficiency of ecological services could be increased by expanding the diversity. Festuca taxa have good drought resistance, and these plants tolerate temperature alterations well. Their application would increase the biodiversity, quality and decorative value of roof gardens. Experiments were carried out on nursery benches imitating a roof garden, with the use of modular elements intended for Sedum species, which facilitate the establishment of green roofs. In our trial, varieties of two European native species, Festuca glauca Vill. 'Uchte' and F. amethystina L. 'Walberla', were investigated. In order to find and determine the differences between the cultivars and the effects of the media (leaf mold and rhyolite tuff), we drew inferences after morphological (height, circumference, root weight, fresh and dry weight) and physiological tests (peroxidase and proline enzyme activity). We concluded that F. glauca 'Uchte' is recommended for roof garden conditions, planted in modular elements. Although the specimens were smaller in the medium containing fewer organic components than in the version with larger amounts, they were less exposed to the effects of drought stress. This can be a key factor for survival in extreme roof gardens or even urban conditions for all plants. [ABSTRACT FROM AUTHOR]

Published

2024

13. Alfalfa‐bermudagrass mixtures managed under contrasting harvest strategies in the southeastern US.

Author

Burt, Justin C., Baxter, Lisa L., Silva, Liliane S., Vasco, Carol M., Prevatt, Christopher G., Mullenix, M. Kimberly, Lawton Stewart, R. Jr, and Tucker, Jennifer J.

Subjects

*RANGE management, *GRAZING, *GRASSES, *CULTIVARS, *ECONOMIC impact, *ALFALFA, *BERMUDA grass

Abstract

The incorporation of dual‐purpose alfalfa (Medicago sativa L.) cultivars into bermudagrass (Cynodon spp.) is a viable option to extend the grazing season in Southern forage systems. However, data are limited on which harvest management strategy (HMS) optimizes the use of alfalfa‐bermudagrass (ABG) mixtures in the Southern US. A two‐year study evaluated ABG mixtures under three HMS [cut only (CO), graze only (GO), or cut and graze (CG)].in Headland, AL and Tifton, GA. Alfalfa‐bermudagrass mixtures utilized in this evaluation were ‘Bulldog 805’ alfalfa that was interseeded into ‘Tifton 85’ bermudagrass. Treatments were evaluated for forage, animal, and total system performance. Herbage accumulation varied by year and location (p < .01), but the number of harvests ultimately determined the total forage produced. Forage allowance was never limiting but did differ among treatments at Tifton, GA (p = .02). The CG HMS allowed for similar daily (p > .06) and liveweight gains (p > .56) on fewer days of grazing as compared to the GO treatments. The greater alfalfa percentage in the CG HMS translated to greater total digestible nutrients (TDN) and crude protein (CP), though not always statistically different. The CO HMS maximized system performance when evaluated for total gain (actual gains + predicted gains). However, the CG management allowed for more production opportunities across the season, thereby reducing economic risk. Future research should focus on evaluating the economic implications of introducing each HMS into ABG systems. [ABSTRACT FROM AUTHOR]

Published

2024

14. Torilis samia (Apiaceae) and Ehrharta erecta (Poaceae), two new species for Greece.

Author

Polymenakos, Kostas, Tan, Kit, and Pantavos, Vasilis

Subjects

*BIOLOGICAL classification, *ENDEMIC species, *INTRODUCED species, *UMBELLIFERAE, *GRASSES

Abstract

Torilis samia sp. nova (Apiaceae) is described from Mt Karvounis (Ambelos) on the East Aegean island of Samos. It resembles T. ucranica but differs clearly by its heterocarpic fruits. The mericarps of the outer fruits have long, flexuous patent-spreading spines. The fruits of T. ucranica are homomorphic and the outer mericarps have upwardly curved adpressed spines. The second species, Ehrharta erecta (Poaceae) is an alien with a native distribution range from Eritrea to South Africa, Réunion, the Arabian Peninsula and India. It is reported for the first time in Greece. Both taxa are illustrated by photographs. The distribution of T. samia and T. ucranica in Greece is mapped. [ABSTRACT FROM AUTHOR]

Published

2024

15. Estimation of dry matter intake by lambs managed on different leaves allowance of Brachiaria-grass using internal and external markers.

Author

Mioto da Costa, Marlova Cristina, Ítavo, Luís Carlos Vinhas, Ferreira Ítavo, Camila Celeste Brandão, Dias, Alexandre Menezes, Difante, Gelson dos Santos, Longhini, Vanessa Zirondi, Goes, Rafael Henrique de Tonissi e Buschinelli de, Mateus, Rodrigo Gonçalves, Heimbach, Natalia da Silva, Nonato, Lucimara Modesto, Kozerski, Noemila Débora, de Melo, Gleice Kelli Ayardes, Chaves Gurgel, Antonio Leandro, and Arco, Thais Fernanda Farias de Souza

Subjects

*LAMBS, *TITANIUM dioxide, *CHROMIUM oxide, *LEAF anatomy, *LIGNINS, *GRASSES

Abstract

It aimed to estimate the forage intake by lambs managed in different leaf allowances on Brachiaria-grass using internal and external markers. Forty-eight Texel lambs with 17.52 ± 3.48 kg were evaluated which were 12 testers and 36 regulators. The lambs were kept in twelve paddocks, subdivided into four treatments based on green leaf allowance (60, 75, 90, and 105 g/kg of BW). The experimental design was completely randomised. To estimate dry matter intake (DMI), the following markers were used: indigestible dry matter (iDM); indigestible neutral detergent fibre (iNDF); indigestible acid detergent fibre (iADF); lignin in indigestible acid detergent (iADL) and titanium dioxide (TiO2). Comparisons between intake markers were made using Chromic Oxide (Cr2O3) as a control marker. The leaves allowance tested did not alter the voluntary intake by lambs kept in Brachiaria-grass pasture. Comparison between the control intake marker (Cr2O3) and the other markers by Dunnett's test showed that, regardless of green leaf allowance, the Cr2O3, TiO2 and iADL markers provided similar estimates of DMI, but with lower values than the other markers. External marker TiO2 and the internal iADL were demonstrated to be more suitable for estimating the dry matter intake in grazing lambs regardless of the leaf allowance. [ABSTRACT FROM AUTHOR]

Published

2024

16. Fear effect exerted by carnivore in grassland ecosystem.

Author

Cong, Pingping, Fan, Meng, and Zou, Xingfu

Subjects

*FEAR in animals, *CARNIVOROUS animals, *GRASSLANDS, *ECOSYSTEMS, *PREDATION, *GRASSES, *DYNAMIC models

Abstract

A four-dimensional mathematical model is formulated to explore the fear effect exerted by large carnivore in the grassland ecosystem. The model depicts the interactions among herbage, domestic herbivore, wild herbivore and large carnivore, which incorporates both direct predation and anti-predator mechanisms. The dynamic properties of the model are analytically investigated, including the dissipativity of solutions, and the existence and stability of different equilibria. Some numerical simulations are also presented to exhibit rich dynamical behaviors, such as various types of bistabilities, periodic oscillation and chaotic oscillation. The study reveals that the appropriate level of fear factors can stabilize the system and increase the density of herbage and domestic herbivore. The fear effect plays an important role in maintaining the balance of the grassland ecosystem and promoting the economy of human society. [ABSTRACT FROM AUTHOR]

Published

2024

17. Six Species of Phyllachora with Three New Taxa on Grass from Sichuan Province, China.

Author

Sun, Qi-Rong, Xu, Xiu-Lan, Zeng, Zhen, Deng, Yu, Liu, Feng, Gao, Li-Ping, Wang, Fei-Hu, Yan, Ya-Qian, Liu, Ying-Gao, and Yang, Chun-Lin

Subjects

*RIBOSOMAL RNA, *PHYLOGENY, *GRASSES, *SPECIES, *TAR, *RIBOSOMAL DNA

Abstract

Phyllachora (Phyllachoraceae, Phyllachorales) species are parasitic fungi with a wide global distribution, causing tar spots on plants. In this study, we describe three newly discovered species: Phyllachora chongzhouensis, Phyllachora neidongensis, and Phyllachora huiliensis from Poaceae in China. These species were characterized using morphological traits and multi-locus phylogeny based on the internal transcribed spacer region (ITS) with the intervening 5.8S rRNA gene, the large subunit of the rRNA gene (LSU), and the 18S ribosomal RNA gene (SSU). Three known species of P. chloridis, P. graminis, and P. miscanthi have also been redescribed, because, in reviewing the original references of P. chloridis, P. graminis, and P. miscanthi, these were found to be relatively old and in Chinese or abbreviated. In addition, the illustrations were simple. In molecular identification, the ITS sequence is short, while the ITS, LSU, and SSU are incomplete. Therefore, this study provides new important references for the redescription of three known species and provides further evidence for the identification of new taxa. [ABSTRACT FROM AUTHOR]

Published

2024

18. Exploring the Impact of a Nontoxic Foliar Fungal Endophyte on Regrowth Post‐Defoliation in Tall Fescue (Lolium arundinaceum) Plants.

Author

Ueno, Andrea C., Casas, Cecilia, Hourcastagne, Martín, and Gundel, Pedro E.

Subjects

*DEFOLIATION, *ENDOPHYTIC fungi, *DEPRECIATION, *HOST plants, *PLANT growth, *TALL fescue, *FORAGE plants

Abstract

Plants employ various strategies to mitigate the impact of herbivory and one such strategy involves the associations with fungal endophytes. Some cool‐season forage grasses benefit from protection against herbivores by Epichloë fungal endophytes. However, since the maintenance of symbiosis relies on the plant, costs of hosting endophytes have been also observed. This becomes particularly crucial when forage varieties, inoculated with endophytes that are nontoxic to livestock but still protect host against insect herbivores, experience significant foliage loss (defoliation). We investigated the impact of a nontoxic Epichloë endophyte on the responses of tall fescue plants to defoliation across two morphotype varieties, Continental and Mediterranean, and different seasonal contexts. Under specific defoliation treatments, endophyte‐symbiotic plants showed reduced postdefoliation recovery, indicating the costs of hosting the endophyte for host plants. However, these conditions were not the most severe for plant growth. Regardless of the endophyte's presence, plants from Continental morphotype exhibited superior recovery than those from Mediterranean morphotype, an effect that was more pronounced in summer. Notably, the endophyte promoted plant growth after defoliation in winter for both morphotypes. Our study offers insights into mitigating endophyte‐associated costs on plant recovery postdefoliation by strategically managing cutting intensity and frequency, considering the seasonal variation. [ABSTRACT FROM AUTHOR]

Published

2024

19. Clavibacter tessellarius causing bacterial mosaic of wheat establishes in the Old World.

Author

Nasiri, Mostafa, Faghihi, Mohammad Mehdi, Rahimian, Heshmat, and Osdaghi, Ebrahim

Subjects

*WHEAT, *CROPS, *ACTINOBACTERIA, *FOLIAGE plants, *PLANT protection, *MOSAIC viruses, *POTATOES, *CUCUMBER mosaic virus, *WINTER wheat

Abstract

The genus Clavibacter (family Microbacteriaceae) includes gram‐positive actinobacterial species infecting diverse agricultural crops such as alfalfa, maize, pepper, potato, tomato and wheat. Clavibacter tessellarius, causing bacterial mosaic of wheat, was reported for the first time in 1976 in Nebraska (United States). Since then, the pathogen was thought to be restricted to North America (Canada and the United States). While bacterial strains suspected to be C. tessellarius have occasionally been isolated from wheat samples outside North America, occurrence of the pathogen in the Old World has not yet been confirmed by the plant protection authorities. In spring 2020 (January to May) dozens of wheat fields with young plants showing leaf chlorosis and mild mosaic symptoms were surveyed and sampled in southern Iran. Among 192 surveyed wheat fields, gram‐positive, orange‐pigmented actinobacterial strains were isolated from samples of 53 fields. Altogether, 61 bacterial strains were identified as C. tessellarius based on the phenotypic features, PCR‐based molecular tests and pathogenicity assays. Multilocus sequence analysis of five housekeeping genes (atpD, dnaK, gyrB, ppk and rpoB) using 10 representative strains from diverse geographic areas in southern Iran confirmed the phylogenetic status of the strains within C. tessellarius. Our data indicate that the bacterial mosaic pathogen occurs in four southern Iranian provinces including Bushehr, Fars, Kerman and Khuzestan. Thus, occurrence of C. tessellarius outside North America is confirmed. Potential risks associated with the emergence of the pathogen in the Old World, and the need for strict quarantine measures in the area, is further discussed. [ABSTRACT FROM AUTHOR]

Published

2024

20. Tripogon salunkhei (Poaceae), a new grass species from Maharashtra state, India.

Author

Gosavi, Kumar Vinod Chhotupuri, Madhav, Nilesh Appaso, and Chandore, Arun Nivrutti

Subjects

*GRASSES, *SPECIES, *PHOTOGRAPHS, *TAXONOMY

Abstract

Tripogon salunkhei sp. nov., is described and illustrated from the Sinnar tehsil of Nashik district, Maharashtra state, India. The new species is very distinct among the species of Tripogon Roem. & Schult by all spikelets having two florets. Coloured photographs, distribution, and ecological notes of the new species are provided. [ABSTRACT FROM AUTHOR]

Published

2024

21. Microbiological characterization, nutritional value and digestibility of black oat hay with crotalaria or corn as predecessors.

Author

Santos, Leslei Caroline, Abbado Neres, Marcela, Neumann, Mikael, Daiane Nath, Caroline, Rodrigues da Silva, Lurdes, Ventura, André Christofoleti, and Martins de Souza, André

Subjects

*WILD oat, *NUTRITIONAL value, *FEED analysis, *CROP rotation, *OATS, *HAY, *CORN, *MICROORGANISM populations

Abstract

The present study assessed the influence of the preceding crop (crotalaria or corn) on the bromatological, digestibility and microbiological aspects of the EMBRAPA 139 black oat hay (Avena strigosa) cultivar. A randomized block design was used, with subplots divided according to time, whereby the preceding crop (crotalaria or corn) was allocated to the main plot and hay storage times (baling, 30, 60 and 90 days of storage) to the subplots, with five repetitions. Crotalaria as predecessor resulted in lower indigestible fiber and higher protein contents in black oat hay, both in acid detergent, as well as higher pH. Corn as the preceding crop provided better hay digestibility due to lower neutral detergent insoluble protein content and higher in vitro neutral detergent fiber digestibility. The preceding crop did not significantly affect the drying time of forage and the microorganism population. [ABSTRACT FROM AUTHOR]

Published

2024

22. Application of Transgenic Technology in Identification for Gene Function on Grasses.

Author

Zhang, Lijun, Liu, Ying, Ma, Yushou, and Wang, Xinyou

Abstract

Perennial grasses have developed intricate mechanisms to adapt to diverse environments, enabling their resistance to various biotic and abiotic stressors. These mechanisms arise from strong natural selection that contributes to enhancing the adaptation of forage plants to various stress conditions. Methods such as antisense RNA technology, CRISPR/Cas9 screening, virus-induced gene silencing, and transgenic technology, are commonly utilized for investigating the stress response functionalities of grass genes in both warm-season and cool-season varieties. This review focuses on the functional identification of stress-resistance genes and regulatory elements in grasses. It synthesizes recent studies on mining functional genes, regulatory genes, and protein kinase-like signaling factors involved in stress responses in grasses. Additionally, the review outlines future research directions, providing theoretical support and references for further exploration of (i) molecular mechanisms underlying grass stress responses, (ii) cultivation and domestication of herbage, (iii) development of high-yield varieties resistant to stress, and (iv) mechanisms and breeding strategies for stress resistance in grasses. [ABSTRACT FROM AUTHOR]

Published

2024

23. Enhancing Effect of Adding Previously Fermented Juice and Sudan Grass on the Quality of Alfalfa Silage.

Author

Dawuti, Yisilayi, Kuerban, Zaituniguli, Cheng, Zhize, Guo, Penghui, Gao, Jinlan, and Yimingniyazi, Amanula

Subjects

SILAGE, ALFALFA, FEED analysis, ANIMAL industry, LIVESTOCK productivity, AGRICULTURE, GRASSES

Abstract

Silage preservation is critical for livestock's stable forage supply during cold seasons and fostering the recycling of agricultural byproducts. We assessed the effects of adding previously fermented juices (PFJ) and different proportions of Sorghum Sudanense (Piper) Stapf (Sudan grass) on the silage quality of Medicago sativa L. (alfalfa). A 50% alfalfa and 50% Sudan grass (M50) mixture exhibited superior performance in sensory evaluation and fermentation quality. The addition of PFJ (PFJI group) further enhanced quality, and increasing the proportion of alfalfa improved the nutritional quality. However, PFJI had no significant effect on the degradation rates of these nutritional indicators (p > 0.05). As alfalfa proportion increased, the disappearance rates of dry matter, crude protein, neutral detergent fiber, and acid detergent fiber in silage increased. Principal component, correlation, and membership function analyses revealed that treatment with M50 without PFJ (PFJ0+M50) had the best effect, followed by treatment with 25% alfalfa and 75% Sudan grass (PFJ0+M25) and 100% alfalfa (PFJ0+M0). Therefore, the mixing ratio of alfalfa and Sudan grass should be maintained between 25% and 50% to optimize the nutritional and fermentation qualities of silage. These findings offer crucial guidance for alfalfa silage preparation, promoting enhanced livestock industry productivity and sustainable agricultural development. [ABSTRACT FROM AUTHOR]

Published

2024

24. Resistance of forage grasses to Blissus pulchellus Montandon (Hemiptera: Blissidae).

Author

Simon, Jaime E., D. de Medeiros, Roberto, C. S. Lima, Antonio, S. da Silva, Edgley, and F. S. Dionisio, Luiz

Subjects

HEMIPTERA, GUINEA grass, GRASSES, STINKBUGS, SIGNALGRASS, OVIPARITY, CULTIVARS, CHEATGRASS brome

Abstract

Copyright of Revista Brasileira de Engenharia Agricola e Ambiental - Agriambi is the property of Revista Brasileira de Engenharia Agricola e Ambiental and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

25. Responses of C4 grasses to aridity reflect species‐specific strategies in a semiarid savanna.

Author

Havrilchak, Nicole A. and West, Jason B.

Subjects

WATER efficiency, STABLE isotope analysis, CARBON 4 photosynthesis, OXYGEN isotopes, PHOTOSYNTHETIC rates, GREENHOUSES

Abstract

The C4 Poaceae are a diverse group in terms of both evolutionary lineage and biochemistry. There is a distinct pattern in the distribution of C4 grass groups with aridity; however, the mechanistic basis for this distribution is not well understood. Additionally, few studies have investigated the functional strategies of co‐occurring C4 grass species for dealing with aridity in their natural environments. We explored the coordination of leaf‐level gas exchange, water use, and morphology among five co‐occurring semiarid C4 grasses belonging to divergent clades, biochemical subtypes, and size classes at three sites along a natural aridity gradient. More specifically, we measured predawn and midday water potential, stomatal conductance, water use efficiency, and photosynthesis. Leaf tissue was also collected for the analysis of stable isotopes of carbon and oxygen as well as for measurement of specific leaf area (SLA) and leaf width. Species differences in responsiveness of stomata to changes in vapor pressure deficit (VPD) were also assessed. It was expected that NAD‐me species would maintain higher rates of photosynthesis, higher water use efficiency, and have more responsive stomata than other co‐occurring species based on observed biogeographic patterns and past greenhouse studies. We found that Aristidoideae and Chloridoideae NAD‐me‐type grasses had greater stomatal sensitivity to VPD, consistent with a more isohydric strategy. However, midgrasses had both greater apparent water access and water use efficiency, regardless of subtype or lineage. PCK‐type species had less responsive stomata and maintained lower levels of photosynthesis with increasing aridity. There were strong interspecific differences in δ13C, leaf width, and SLA; however, these were not significantly correlated with water use efficiency. C4 grasses in our study did not fit discretely into functional groups as defined by lineage, biochemistry, or size class. Interspecific differences, evolutionary legacy, and biochemical pathway are likely to interact to determine water use and photosynthetic strategies of these plants. Control of water loss via highly responsive stomata may form the basis for dominance of certain C4 grass groups in arid environments. These findings build on our understanding of contrasting strategies of C4 grasses for dealing with aridity in their natural environments. [ABSTRACT FROM AUTHOR]

Published

2024

26. Soil Bioengineering Using Vetiver for Climate-Adaptive Slope Repair: Review.

Author

Chakraborty, Avipriyo and Khan, Sadik

Subjects

SHEAR strength of soils, SLOPES (Soil mechanics), VETIVER, PORE water pressure, MASS-wasting (Geology), INDIGENOUS plants, GRASSES

Abstract

An increase in precipitation due to climate change has given rise to the number of landslide occurrences. Vetiver, which is a perennial grass, is becoming increasingly popular all over the world as a vegetation-based soil bioengineering tool for preventing landslides. Sunshine Vetiver grass, also known as Chrysopogon zizanioides is noninvasive and does not compete with other indigenous plants growing in the area. Even though it is a tropical grass, Vetiver can grow in a wide range of climate conditions, including those that are quite harsh in terms of both soil and climate. The roots can grow up to 3 m in length in a dense bushy root network under optimal conditions. In this review, the authors have studied the impact of Vetiver on landslide mitigation as a climate-adaptive slope repair tool based on the research undertaken so far. Furthermore, the authors have addressed the future potential and constraints associated with the use of Vetiver for landslide mitigation. It is seen that the use of Vetiver reduces pore water pressure. The high tensile strength of Vetiver roots provides reinforcement for slopes and enhances soil shear strength. Vetiver increases saturated hydraulic conductivity and reduces surface runoff and slip surface depth. Being a vegetation-based climate-adaptive technology, this grass exhibits great promise in its ability to effectively address landslide problems. However, the magnitude of the root impact diminishes as the depth increases, rendering Vetiver a more promising remedy for shallow landslide occurrences. In addition, Vetiver grass has a wide range of practical uses due to its unique characteristics, which provide additional benefits. Employment of Vetiver is cost-effective compared with traditional engineering methods, and it requires less initial maintenance, which implies that community-based initiatives can effectively address landslide prevention through Vetiver implementation. Practical Applications: Vetiver grass has a long bushy network of roots that can grow up to 3 m in length. The Sunshine Vetiver grass is not invasive and does not compete with indigenous plants. Although Vetiver is a tropical grass, this grass can survive in various climates and soil conditions. Vetiver is a vegetation-based climate-adaptive technology that can prevent slope failure and reduce surface runoff. Additionally, growing Vetiver can generate income for local communities because the fragrant roots can be utilized in the extraction of essential oils for the perfume industry and from the manufacture and trade of other commodities derived from Vetiver. The grass's green leaves contribute to the aesthetic appeal of the landscape. Implementing Vetiver on slopes does not require heavy machinery and is cost-effective compared with traditional engineering methods. It also requires less initial maintenance, making it an ideal solution for community-based initiatives aiming to address slope failure prevention through Vetiver implementation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Unraveling the forage productivity puzzle: Comparing fast and slow-growing grasses.

Author

Pittaro, M. Gabriela, Duchini, Paulo G., Guzatti, Gabriela C., and Sbrissia, André F.

Subjects

*TALL fescue, *LEAF area, *POPULATION density, *GRASSES, *CULTIVATORS

Abstract

Functional traits are powerful tools for distinguishing between plants with different resource acquisition strategies. Fast-growing plants normally dominate resource-rich habitats and present trait values associated with high productivity, such as high specific leaf area (SLA), short leaf lifespan, and rapid leaf elongation rate (LER). In contrast, slow-growing species have a higher leaf weight ratio (LWR), leaf lifespan (LLS), and phyllochron, which are useful traits for survival in stressful and unfertile environments, but are normally thought to be incompatible with high productivity, even under fertile conditions. We tested the hypothesis that slow-growing forage grasses have demographic parameters (tiller population density and canopy density) that offset their slow individual traits, making them as productive as fast-growing species when grown in fertile soil. Species with contrasting growth strategies (Arrhenatherum elatius L. and Festuca arundinacea Schreb cv. Quantum II, fast and slow-growing species, respectively) were cultivated in 45 m2 field plots and subjected to the same cutting regime and nitrogen supply level. Functional traits and canopy attributes were continuously measured during 8 growing cycles after the establishment of the swards. A. elatius had higher SLA, LER, leaf senescence, and leaf appearance rates, whereas F. arundinacea had higher LLS and LWR values. Conversely, there were no differences in relative growth rate or forage accumulation. F. arundinacea was able to offset their plant functional traits, typically associated with slow-growing grasses, with some demographic parameter like higher tiller population density, allowing it to be as productive as the fast-growing A. elatius when both were grown in fertile soil. Therefore, we suggest cautionary use of traditional plant functional traits to explain and predict the annual productivity of slow-growing grasses. [ABSTRACT FROM AUTHOR]

Published

2024

28. Expansions and contractions of repetitive DNA elements reveal contrasting evolutionary responses to the polyploid genome shock hypothesis in Brachypodium model grasses.

Author

Decena, María Ángeles, Sancho, Rubén, Inda, Luis A., Pérez-Collazos, Ernesto, and Catalán, Pilar

Subjects

BRACHYPODIUM, GENOME size, GENOMES, GRASSES, FUNCTIONAL genomics, DNA, DNA insertion elements

Abstract

Brachypodium grass species have been selected as model plants for functional genomics of grass crops, and to elucidate the origins of allopolyploidy and perenniality in monocots, due to their small genome sizes and feasibility of cultivation. However, genome sizes differ greatly between diploid or polyploid Brachypodium lineages. We have used genome skimming sequencing data to uncover the composition, abundance, and phylogenetic value of repetitive elements in 44 representatives of the major Brachypodium lineages and cytotypes. We also aimed to test the possible mechanisms and consequences of the "polyploid genome shock hypothesis" (PGSH) under three different evolutionary scenarios of variation in repeats and genome sizes of Brachypodium allopolyploids. Our data indicated that the proportion of the genome covered by the repeatome in the Brachypodium species showed a 3.3-fold difference between the highest content of B. mexicanum-4x (67.97%) and the lowest of B. stacei-2x (20.77%), and that changes in the sizes of their genomes were a consequence of gains or losses in their repeat elements. LTRRetand and Tekay retrotransposons were the most frequent repeat elements in the Brachypodium genomes, while Ogre retrotransposons were found exclusively in B. mexicanum. The repeatome phylogenetic network showed a high topological congruence with plastome and nuclear rDNA and transcriptome trees, differentiating the ancestral outcore lineages from the recently evolved core-perennial lineages. The 5S rDNA graph topologies had a strong match with the ploidy levels and nature of the subgenomes of the Brachypodium polyploids. The core-perennial B. sylvaticum presents a large repeatome and characteristics of a potential post-polyploid diploidized origin. Our study evidenced that expansions and contractions in the repeatome were responsible for the three contrasting responses to the PGSH. The exacerbated genome expansion of the ancestral allotetraploid B. mexicanum was a consequence of chromosome-wide proliferation of TEs and not of WGD, the additive repeatome pattern of young allotetraploid B. hybridum of stabilized post-WGD genome evolution, and the genomecontraction of recent core-perennials polyploids (B. pinnatum, B. phoenicoides) of repeat losses through recombination of these highly hybridizing lineages. Our analyses have contributed to unraveling the evolution of the repeatome and the genome size variation in model Brachypodium grasses. [ABSTRACT FROM AUTHOR]

Published

2024

29. Carbon isotope trends across a century of herbarium specimens suggest CO2 fertilization of C4 grasses.

Author

del Toro, Isa, Case, Madelon F., Karp, Allison T., Slingsby, Jasper A., and Staver, A. Carla

Subjects

*BOTANICAL specimens, *CARBON isotopes, *ATMOSPHERIC carbon dioxide, *SAVANNAS, *TROPICAL ecosystems, *GRASSES

Abstract

Summary: Increasing atmospheric CO2 is changing the dynamics of tropical savanna vegetation. C3 trees and grasses are known to experience CO2 fertilization, whereas responses to CO2 by C4 grasses are more ambiguous.Here, we sample stable carbon isotope trends in herbarium collections of South African C4 and C3 grasses to reconstruct 13C discrimination.We found that C3 grasses showed no trends in 13C discrimination over the past century but that C4 grasses increased their 13C discrimination through time, especially since 1950. These changes were most strongly linked to changes in atmospheric CO2 rather than to trends in rainfall climatology or temperature.Combined with previously published evidence that grass biomass has increased in C4‐dominated savannas, these trends suggest that increasing water‐use efficiency due to CO2 fertilization may be changing C4 plant–water relations. CO2 fertilization of C4 grasses may thus be a neglected pathway for anthropogenic global change in tropical savanna ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

30. Screening Cover Crops for Utilization in Irrigated Vineyards: A Greenhouse Study on Species' Nitrogen Uptake and Carbon Sequestration Potential.

Author

Sharifi, Mehdi, Salimi, Khaled, Rosa, Daniel, and Hart, Miranda

Subjects

WHITE clover, ENERGY crops, RHUBARB, PLANT biomass, GRAPES, COVER crops

Abstract

This study examines the potential of 23 plant species, comprising 10 legumes, 9 grasses, and 4 forbs, as cover crops to enhance carbon (C) sequestration and soil nitrogen (N) in vineyards. After a 120-day evaluation period, cover crop biomass was incorporated into the soil, and grapevine seedlings were planted in its place. Among the established cover crops, the C input potential ranged from 0.267 to 1.69 Mg ha−1, and the N input potential ranged from 12.3 to 114 kg ha−1. Legume species exhibited up to threefold greater shoot dry weight (SDW) compared to grass species. Ladino white clover, Dutch white clover, and Clover blend were superior in SDW, total dry weight (TDW), total C content, and total N content. Legumes exhibited slightly higher root dry weight (RDW) than grasses, with the exception of Fall rye leading at 15 g pot−1, followed by Ladino white clover and Dutch white clover at an average of 12 g pot−1. Legumes, particularly clover blend and Alsike clover, displayed high shoot N concentration at an average of 2.95%. Root N concentration in Legumes (Fabaceae) were significantly higher at 1.82% compared to other plant families at 0.89%, while their root C/N ratio was lower at 18.3, contrasting with others at 27.7, resulting in a faster turnover. Biomass production exhibited a negative relationship (R2 = 0.51) with soil residual NO3−. Fall rye, Winfred brassica, and buckwheat had the highest N utilization efficiency (NUtE) values (ava. 121 g g−1). Alsike clover, Ladino white clover, and clover blend showed the highest N uptake efficiency (NUpE) values (ava. 75%). The Readily Available N (RAN) Reliance Index (RANRI) is introduced as a novel indicator for quantifying the extent to which a plant relies on RAN for its total N requirement. The RANRI value represents the percentage of the plant's total N sourced from RAN, ranging from 11% for legumes to 86% for grasses. This implies a substantial influx of nitrogen through a pathway independent of RAN in legumes. Grape shoot N concentration positively correlated with soil NO3− (R2 = 0.31) and cover crop C/N ratio (R2 = 0.17) but negatively correlated with cover crop TDW (R2 = 0.31). This study highlights legume plants as more effective in C and N assimilation during establishment but cautions about potential soil mineral N depletion before reaching their full biological N fixation capacity. [ABSTRACT FROM AUTHOR]

Published

2024

31. AMF symbiosis drives the rhizosphere microbiome to synergistically improve herbage growth in saline–alkaline soils.

Author

Zhang, Zhechao, Ding, Shengli, Diao, Fengwei, Jia, Bingbing, Shi, Zhongqi, and Guo, Wei

Subjects

TOLERATION, ELECTRIC conductivity of soils, RHIZOSPHERE, GRASSES, SYMBIOSIS, PLANT biomass, FORAGE

Abstract

Plant–microbe interactions are essential in shaping plant performance and overall ecosystem functioning. However, the regulatory mechanisms underlying plant–microbe interactions mediated by mycorrhizal symbiosis in saline–alkaline soils are still not fully understood. Here, we aimed to clarify the synergistic regulatory mechanism through which arbuscular mycorrhizal fungi (AMF) symbiosis drives the rhizosphere microbiome to improve perennial herbage growth in saline–alkaline soils and evaluate phytoremediation efficiency. This study revealed that Funneliformis mosseae inoculation (i) strongly promoted the growth of all three herbage species (with values ranging from 21.62% to 233.33%), Na+ accumulation in plants (with values ranging from 24.63% to 188.89%), and decreased soil electrical conductivity (with values ranging from 7.68% to 12.87%), potentially suggesting improved phytoremediation efficiency with AMF symbiosis; (ii) increased nutritional content and decreased C:P and N:P ratios (with values ranging from 27.20% to 92.87%) and improved K+/Na+ and P/Na+ ratios (with values ranging from 2.60% to 302.96%); (iii) increased the abundance of some beneficial bacterial taxa and strengthened the significant strong relationships among most of these bacteria and plant biomass, ion homeostasis as well as stoichiometric ratio constants, and AMF inoculation treatments also consisted the higher proportion of differential genera significantly correlated with these plant factors as well as plant nutrient contents, potentially reflecting that AMF mediated the enrichment process of beneficial bacterial taxa and may strength functional interaction between plant and bacterial taxa, which may be importance for the enhancement of saline–alkaline tolerance of plants; and (iv) enhanced stability of the rhizosphere bacterial community and complexity of interaction networks, and the related indictors also established significant correlations with plant/soil factors, suggesting that the improvement of stability and functional complexity driven by AMF may also be beneficial for enhancing phytoremediation efficiency. These findings indicate that AMF inoculation plays its own beneficial role by simultaneously activating the potential of beneficial rhizosphere bacterial taxa and that their synergistic interaction is more beneficial for enhancing plant growth in salt‐affected soils and enhancing phytoremediation efficiency. This study helps to elucidate the underlying mechanisms through which AMF‐mediated rhizosphere bacterial community improve plant growth and tolerance to saline–alkaline stresses, and provides evidence that effective ecological restoration of saline–alkaline degraded grasslands can be achieved via the use of mycorrhizal symbiosis herbage. [ABSTRACT FROM AUTHOR]

Published

2024

32. Effect of gap size in grass cover on the percentage and rate of dandelion achene germination.

Author

Martinková, Zdenka and Honěk, Alois

Subjects

*DANDELIONS, *COMMON dandelion, *GERMINATION, *SURFACE area, *GRASSLANDS, *PERCENTILES, *GRASSES

Abstract

In Central Europe, Taraxacum officinale Weber ex Wiggers (dandelion) is an economically important admixture in grasslands. Its spread is supported by its ability to germinate in gaps in grass stands. In a 5‐year experiment, we examined the effect of gap size on the germination rate and percentage of dandelion achenes. Each year, achenes were sown in late spring and mid‐summer in 90 square plots of six sizes, ranging from 2.5 × 2.5 cm to 80 × 80 cm. The plots were placed on a 2 × 6 m experimental area covered with low‐cut lawn. The course of germination varied among individual replicates depending on the weather. In each replicate, however, the rate of germination increased, and the percentage of germinated achenes decreased with increasing gap size. Differences in germination paralleled differences in the microclimate on the soil surface of plots where humidity decreased and temperature increased with plot size. The ultimate cause of this difference was the variance among gaps of different sizes in proportion to which the total area of the gap surface is insolated during the day. The colonization of lawns by dandelion is supported by the formation of small gaps in grass stands. [ABSTRACT FROM AUTHOR]

Published

2024

33. Nutritional evaluation of savoy grass (Panicum máximum) varieties, mombaza, tanzania and zuri, 35 days after harvest.

Author

Iglesias Obando, William Andrés, Méndez López, Luis Jonier, Cedeño Boada, Ángel Fabricio, Chávez Cedeño, Viviana Antonia, and Moran Rivas, Charles David

Subjects

*SUSTAINABLE agriculture, *GUINEA grass, *LIVESTOCK development, *SOIL topography, *PANICUM

Abstract

This study was framed within the research line of the Faculty of Agricultural Sciences entitled: production, management and sustainable development of agricultural, livestock and forestry products with an ecosystem approach. In addition, it was aligned with the sub-line of the Animal Husbandry career: local, regional and national integrated livestock development and management. The genera Panicum máximum varieties such as Mombaza, Tanzania and Zuri have been introduced in different regions of the country with success and failure because they have been established in regions with totally different climate, soil and topography characteristics, which generates low productivities. The objective of this work was to study the bromatological performance of three cultivars of Panicum maxima varieties (Mombaza, Tanzania and Zuri). A completely randomized repeated block design with subplots was used, with three treatments and three replications. The cut was made 35 days after harvest to determine crude protein, crude fiber and dry matter. The following results were obtained. The proximal bromatological analysis showed that the highest percentage of protein was obtained by zuri grass (13.44) CP. In the fiber ratio, the one that stood out best was Mombaza grass, which reached (35.20) FC. And the one that obtained the best dry matter percentage was the Zuri variety with (19.95) DM. In the protein-carbohydrate ratio, the Zuri grass achieved the highest yield of CP with 13.44%, while the Mombaza grass in crude fiber with 31.02%. [ABSTRACT FROM AUTHOR]

Published

2024

34. Phylogeny of North American Dichanthelium (Panicoideae, Poaceae): Testing Species Limits in One of the Most Taxonomically Complicated Groups of Grasses.

Author

Majure, Lucas C., Naczi, Robert F. C., Abbott, J. Richard, Wood, Kenneth R., Valencia-D., Janice, Stonehouse, Gavin, and Neubig, Kurt M.

Subjects

*PHYLOGENY, *SPECIES, *GRASSES, *SPECIES hybridization, *BOTANY, *PLIOCENE Epoch

Abstract

Premise of research. Dichanthelium extends from Canada to Argentina and is most species rich in eastern North America. These C3 panicoid grasses, which are mixed mating and flower two or three times per year, displaying different vegetative growth forms over that time, are renowned for their taxonomic complexity. Thus, there are drastically differing taxonomic treatments; however, no well-sampled phylogenetic perspective is yet available to further explore relationships among species or species complexes. Methodology. We developed the first broadly sampled phylogeny of Dichanthelium , covering the entire range of the genus, but with a focus on the species-rich eastern North American distribution. We sampled 72 taxa (290 accessions), including all currently recognized taxa in the recent Flora of North America treatment. Our dataset consisted of the plastid locus rpl32-trnL and the nuclear loci internal transcribed spacer (ITS) and granule-bound starch synthase I (GBSSI) and was analyzed using maximum likelihood. We calibrated our phylogeny to test the divergence time of the North American clade and likewise used ITS data to explore putative hybridization. Pivotal results. South American species of Dichanthelium formed a grade of successive sisters to the North American clade, which we recovered as originating in the late Miocene–early Pliocene. We recovered 27 subclades, most of these representing species complexes or morphologically similar species. Numerous taxa were resolved outside of their putative species groups and are apparently morphologically cryptic species. We show several cases of putative hybridization in eastern North American and Hawaiian species. Conclusions. Our phylogeny provides a foundation for understanding this taxonomically complicated group of grasses, which will need detailed future studies into species complexes to provide greater taxonomic resolution and understanding of biological processes driving the evolution and diversification of the clade. This should include further study of autogamy and its evolutionary consequences in North American taxa. We propose an adjusted taxonomic treatment of specific members of the genus based mostly on our phylogenetic results. [ABSTRACT FROM AUTHOR]

Published

2024

35. Setosphaeria turcica , the Maize Leaf Blast Pathogen: Current Status and Infection Mechanisms.

Author

Li, Pan, Sohail, Aamir, Zeng, Fanli, Hao, Zhimin, and Dong, Jingao

Subjects

*MYCOSES, *CORN, *MOLECULAR cloning, *PREVENTIVE medicine, *GRASSES

Abstract

The fungal pathogen Setosphaeria turcica causes northern corn leaf blight (NCLB) in maize, sorghum, and related grasses. NCLB is a serious fungal foliar disease of cultivated maize that causes devastating yield losses. S. turcica infects maize leaves by means of a specialized cell, the appressorium, but the regulatory mechanisms that underlie appressorium-mediated infection remain largely unknown. Many regulatory pathways and a large number of genes have been described in S. turcica, and many of these genes have been cloned. Characterization of such disease-related genes is important for understanding the biological mechanisms of interaction between pathogen and host and can guide the development of strategies for disease control. There is a significant level of concern regarding the possible dissemination of the S. turcica pathogen to regions where NCLB is not presently prevalent. This scenario is of considerable concern and necessitates immediate research intervention. The present review brings together information on the epidemiology and infection mechanisms of S. turcica. [ABSTRACT FROM AUTHOR]

Published

2024

36. Assessing the combination efficiency of some unconventional feed resources with concentrates and Chloris gayana grass in mitigating ruminal methane production in vitro.

Author

Melesse, Aberra, Steingass, Herbert, Holstein, Julia, Titze, Natascha, and Rodehutscord, Markus

Subjects

*METABOLIZABLE energy values, *METHANE, *CONCENTRATE feeds, *GRASSES, *ORGANIC compounds, *PIGEON pea, *IN vitro studies

Abstract

In a preliminary in vitro study, leaves of Acacia nilotica, Prosopis juliflora, Cajanus cajan, Leucaena leucocephala and seed kernel of Mangifera indica were identified as potential candidates in mitigating ruminal methane (CH4) production. The objective of the current study was to investigate the combination efficiency of these unconventional feeds with concentrate mix (CM) or Chloris gayana grass in CH4 reduction. Two feed combinations in different proportions were incubated in vitro with buffered rumen fluid at Hohenheim Gas test. In combination 1, C. gayana and CM were included as basal substrates, while in combination 2, A. nilotica, P. juliflora, C. cajan, L. leucocephala or M. indica seed kernel were included as CH4 reducing supplements at different proportions. The CH4 reducing potentials of feed combinations were presented as the ratio of CH4 to net gas production and expressed as percentage (pCH4). The pCH4 for CM and C. gayana was 16.7% and 16.9%, respectively, while it ranged from 3.18% in A. nilotica to 13.1% in C. cajan. The pCH4 was reduced (p < 0.05) from 14.6% to 9.39% when A. nilotica was combined with CM. In combination of L. leucocephala or C. cajan with CM, the pCH4 (p < 0.05) was reduced from 16.5% and 16.6% with the lowest proportion to 15.1% and 15.2% with the highest inclusion rate respectively. The combination of C. gayana with L. leucocephala or C. cajan reduced (p < 0.05) the pCH4 from 16.3% and 16.4% to 15.1% and 14.9% respectively. The pCH4 was reduced (p < 0.05) from 13.4% to 7.60% when A. nilotica was combined with C. gayana. Estimated digestible organic matter (dOM) and metabolizable energy (ME) increased (p < 0.05) with increasing proportions of M. indica seed kernel with CM or C. gayana. In conclusion, the combination of the basal substrates with unconventional supplements resulted in CH4 reduction without affecting the dOM and ME at lower inclusion rates. Animal‐based experiments await to validate in vitro findings. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effects of heading date and Epichloë endophyte on persistence of diploid perennial ryegrass (Lolium perenne). 2. Endophyte strain and interactions with heading date.

Author

Tozer, Katherine N., Hume, David E., Cameron, Catherine, Greenfield, Rose, Dale, Tracy, Mace, Wade J., Craven, Tony, and Faville, Marty J.

Subjects

*LOLIUM perenne, *RYEGRASSES, *PERENNIALS, *CULTIVARS, *GROUND cover plants, *GRASSES

Abstract

Context: Data are lacking on the effects of selected endophytes of perennial ryegrass (Lolium perenne L.) on ryegrass persistence. Aim: We aimed to determine the impact of Epichloë endophyte on the persistence of mid- and late-heading perennial ryegrass cultivars. Method: Two mid-heading (Samson, Bronsyn) and two late-heading (One50, Rohan) cultivars, infected with selected endophytes (AR37, nea2/6) or with standard toxic endophyte, were established in a replicated plot study grazed by cattle in a subtropical environment of the upper North Island of New Zealand. Persistence characteristics were quantified at least five times per annum, over 4 years. Key results: Endophyte strain had an effect on persistence; infection with standard endophyte resulted in higher ryegrass ground cover percentage, ryegrass content in pasture dry matter and autumn yield than infection with nea2/6 on many occasions, and with AR37 on some occasions. There were negligible impacts on ryegrass tiller density or nutritive value. Trends were dominated by the main effect of endophyte; interactions with heading date were inconsistent. Conclusions: Cultivars were more persistent when infected with standard endophyte than with selected endophytes, although persistence declined over 4 years for all cultivars and irrespective of heading date. Implications: Reliance on selected endophyte is unlikely to prevent persistence decline of perennial ryegrass in a subtropical environment. Other strategies will be required to maintain the persistence of high-quality pastures based on perennial ryegrass. We determined the impact of endophyte strain (standard toxic endophyte, selected strains nea2/6 and AR37), on the persistence of four perennial ryegrass cultivars. Standard endophyte resulted in greater persistence than the selected endophytes, with higher ryegrass ground cover percentage and content in pasture dry matter by the end of the study, and higher herbage yields in autumn. Persistence declined over 4 years for all cultivars, regardless of endophyte. [ABSTRACT FROM AUTHOR]

Published

2024

38. Soil quality and vegetation cover characteristics as influenced by diverse grazing regimes and soil disturbance histories in a semi-arid rangeland (Iran).

Author

Nael, Mohsen, Salarinik, Khadijeh, and Assadian, Ghasem

Subjects

*GROUND cover plants, *RANGE management, *GRAZING, *SOILS, *SOIL structure, *CENTAUREA, *GRASSES

Abstract

This study investigates the soil functioning and regeneration processes in a semi-arid rangeland subject to an eleven-year conservation grazing (CG) program within the Gonbad paired watershed in Hamadan, Iran. Five distinct sites with varying rangeland vegetation cover were selected based on differences in grazing regimes and soil disturbance histories. These sites include: CG site with Astragalus-Artemisia vegetation (CG(A-A)); CG site with Astragalus-Bromus vegetation (CG(A-B)); CG site, easily accessible to grazing livestock, with Astragalus-Lactuca vegetation (CG(EA)); CG site with a history of past rainfed farming and Centaurea-Grasses vegetation (CG(PRF)); and free grazing (FG) site with Astragalus-Euphorbia vegetation. In addition, a long-term rainfed farming site (RF) was studied as the dominant land use. Rangeland management practices had a discernible impact on nearly all soil quality (SQ) indicators. However, due to their strong interdependence, only soil aggregate stability, carbohydrates, and phosphatase activity proved to be critical indicators representing soil functioning in the area. The general SQ index illustrated a decline in soil functioning at RF (58%), CG(PRF) (55%), FG (42%), and CG(EA) (22%) sites compared to sites classified as "good" (CG(A-A) and CG(A-B)). Total organic carbon and carbon stock were only recovered in well-restored sites, characterized by a predominance of shrubs and perennial grasses. Meanwhile, active carbon and carbohydrates revealed the positive effects of conservation grazing in moderately and poorly restored sites, characterized by a predominance of forbs and annual grasses. Our findings suggest that soil disturbance history and grazing accessibility are critical factors for successfully implementing conservation grazing management in the area. [ABSTRACT FROM AUTHOR]

Published

2024

39. Low weed and cool‐season grass abundances likely necessary for warm‐season grass, forb, and shrub establishment.

Author

Rinella, Matthew J. and Bellows, Susan E.

Subjects

*NATIVE plants, *GRASSES, *WEED control, *GROWING season, *GRASSLANDS, *WEEDS

Abstract

Plants seeded in degraded grasslands often fail to establish. In the Northern Great Plains, perennial cool‐season grasses are easiest to establish, and they sometimes competitively suppress warm‐season grasses, shrubs, and forbs. Seeding cool‐season grasses at low rates sometimes benefits other seeded plants but risks greater weed abundances. To identify grass seed rates low enough to allow other plants to establish but high enough to constrain weeds, we varied cool‐season grass seed rates while holding warm‐season grass, shrub, and forb seed rates fixed. The first couple growing seasons after seeding, we hypothesized cover of other seeded plants and weeds would decrease with increasing cool‐season grass seed rate. During later growing seasons, we hypothesized weed cover would become independent of grass seed rates due to seeded plants increasing in plots seeded at low rates. Neither hypothesis was supported. Because weed abundances were high, warm‐season grasses, shrubs, and forbs apparently experienced similarly intense competition regardless of grass rate, so low rates did not increase seeded plant establishment. Regardless of seed rate, cool‐season grass cover did not increase between the second and final (i.e. fourth) growing season, perhaps because of low precipitation. Increasing warm‐season grass, shrub, and forb abundances will require controlling weeds in addition to lowering cool‐season grass seed rates. Even these steps will not always increase establishment because native plants sometimes died before controlling weeds with herbicides became feasible and grass competition became important. Lowering grass rates without implementing weed control risks sites becoming weedy for prolonged periods. [ABSTRACT FROM AUTHOR]

Published

2024

40. Grass pollen surface ornamentation is diverse across the phylogeny: Evidence from northern South America and the global literature.

Author

Wei, Cai‐Xia, Jardine, Phillip E., Mao, Li‐Mi, Mander, Luke, Li, Mao, Gosling, William D., and Hoorn, Carina

Subjects

*POLLEN, *PHYLOGENY, *BOTANICAL specimens, *PLANT collecting, *DATA mapping, *GRASSES

Abstract

The grasses are one of the most diverse plant families on Earth. However, their classification and evolutionary history are obscured by their pollen stenopalynous (similar) morphology. A combination of high‐resolution imaging of pollen surface ornamentation and computational analysis has previously been proposed as a promising tool to classify grass taxonomic boundaries. In this study, we test this hypothesis by studying Poaceae pollen across the phylogeny from plants collected in northern South America and also from published literature across the globe. We assessed if morphotypes that we establish using descriptive terminology are supported by computational analysis, if they vary along six (a)biotic variables and vary across the phylogeny. Based on this analysis, we constructed a reference framework for pollen surface ornamentation morphotypes. Our results showed that there is a wide variation of grass pollen surface ornamentation. We identified nine new and confirmed six known morphotypes, establishing a data set for 223 species (243 individual plant specimens) that represent 11 subfamilies. Computational analysis showed that our morphotypes are well‐supported by two quantitative features of pollen sculptural elements (size and density). The specific data set and mapping of the phylogeny confirmed that pollen morphological sculpture is unrelated to (a)biotic variables and is diverse across the phylogeny. [ABSTRACT FROM AUTHOR]

Published

2024

41. Clinical validation of grass pollen exposure chamber in patients with allergic rhinitis triggered by timothy grass.

Author

Kosowska, Anna, Zemelka‐Wiącek, Magdalena, Smolińska, Sylwia, Wyrodek, Ewa, Adamczak, Bartosz, and Jutel, Marek

Subjects

*ALLERGIC rhinitis, *POLLEN, *EXPIRATORY flow, *ALLERGY desensitization, *GRASSES

Abstract

Background: The fluctuation in concentrations of airborne allergens frequently presents a challenge to assessing the efficacy of allergen immunotherapy (AIT) in 'field' studies. Allergen exposure chambers (AECs) are specialized medical installations developed to expose individuals to allergens at defined and consistent concentrations under a controlled environment. The aim of the study was to validate the provocation test with timothy grass pollen as well as to assess its safety in the AEC in patients with allergic rhinitis. Methods: In the ALLEC® AEC, varying concentrations of timothy grass pollen were dispersed. Allergic symptoms were measured by total nasal symptom score (TNSS), acoustic rhinometry, peak nasal inspiratory flow (PNIF) and nasal discharge volume. Lung function, assessed through peak expiratory flow rate (PEFR) and forced expiratory volume in the first second (FEV1), was used to evaluate safety. Results: The consistency of the test was proved by the stability of environmental conditions, including temperature, humidity and CO2 levels, as well as constant concentrations of grass pollen at predetermined levels ranging from 1000 to 10,000 particles per cubic meter (p/m3). Allergic individuals developed symptoms at concentrations of 3000 p/m3 and above, across all measured endpoints. Lung function was not affected throughout all the challenges. The reproducibility of symptoms was confirmed throughout the tests. The concentration of 8000 p/m3 together with a challenge duration of 120 min was found to be optimal. Conclusion: The study demonstrates that the ALLEC® grass pollen exposure chamber provides a reliable and safe method for inducing repeatable symptoms in patients with allergic rhinitis. This approach can be effectively applied for allergy diagnostics and clinical endpoint determination during AIT. [ABSTRACT FROM AUTHOR]

Published

2024

42. Ultrastructure of Digestive Canal of Aelia rostrata (Heteroptera: Pentatomidae).

Author

GENÇ, Şermin and CANDAN, Selami

Subjects

HEMIPTERA, STINKBUGS, SCANNING electron microscopes, GRASSES, SAP (Plant)

Abstract

Copyright of Journal of Agriculture & Nature / Kahramanmaraş Sütçü İmam Üniversitesi Tarım & Doğa Dergisi is the property of Kahramanmaras Sutcu Imam Universitesi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Spatial variation in grassland vegetation and herbage mass in the Ejina oasis along the Heihe River in the southern Gobi Desert, China.

Author

Shiyomi, Masae, Chen, Jun, Yamamura, Yasuo, and Hori, Yoshimichi

Subjects

GRASSLANDS, SPATIAL variation, GRASSES, DESERTS, SOIL moisture, RIPARIAN plants

Abstract

Our study area, Ejina, is located in the southern Gobi Desert, Inner Mongolia, China, where the annual precipitation is <50 mm and the annual potential evaporation is >3,600 mm. The Heihe River flows from the Qilian Range through the study area, and the desert landscape along the river includes oases formed by forests and grasslands. We established a survey area of approximately 1.5 ha in grassland facing a seasonal swamp, a branch of the Heihe River. We posed the following questions in this desert grassland: (1) how do soil water content (SWC) and salinity change with distance from the riverbank? (2) How do vegetation, aboveground biomass, and species richness change with distance from the riverbank? (3) How much can be supplied to grazing animals, and how many animals can be grazed? Our results indicated that (1) the SWC is high within 20 m of the riverbank and low beyond 20 m, the standing biomass is positively correlated with SWC, but there was no evidence of a correlation between salinity and distance to water; the electrical conductivity was high both inland and adjacent to the riparian swamp. (2) Vegetation could be classified to six classes, following a gradient from the riverbank (swamp margin) to the dry inland area beyond 20 m from the riverbank. Species richness and aboveground biomass were highly correlated. Classification result led us to recommend that generalist species tolerant of the distinct moisture gradient in the site be used in restoration efforts. (3) Per‐hectare aboveground biomass was 478.93 dry weight (dw) kg, 321.2 ha of equivalent grassland would be required to graze 100 goats annually. [ABSTRACT FROM AUTHOR]

Published

2024

44. PREVALENCE OF THE BOPYRID ISOPOD PROBOPYRUS PANDALICOLA IN DAGGERBLADE GRASS SHRIMP FROM SALT MARSH CREEKS AND PANNES OF CAPE COD, MASSACHUSETTS.

Author

Stoner, Elizabeth W., Harris, Rachel J., Morton, Joseph, McPherson, Brodie S., Wilczek, Eliza R., and Silliman, Brian R.

Subjects

SALT marshes, SHRIMPS, SPRING, GRASSES

Abstract

In salt marsh ecosystems, daggerblade grass shrimp, Palaemon (Palaemonetes) pugio, play a crucial role in food webs and serve as the definitive host for the bopyrid isopod Probopyrus pandalicola. These ectoparasites infest the branchial chambers of grass shrimp, which can lead to decreased energy availability and sterilization of infected hosts. Although bopyrid isopod infestation of daggerblade grass shrimp has been frequently reported in literature from coastal marshes of the southeastern United States, the prevalence of this parasite has not been recently documented in daggerblade grass shrimp from marshes of the northeastern United States. The goal of this project was to quantify the prevalence of Pr. pandalicola infestations in Pa. pugio across Cape Cod, Massachusetts. We evaluated bopyrid isopod prevalence from shrimp collected from 5 different salt marsh habitats along Cape Cod in August 2021. Bopyrid isopod infestations were found in shrimp at 4 of 5 salt marshes, with prevalence ranging from 0.04 to 14.1%. Seasonal resampling of one of the salt marshes revealed the highest average infestation prevalence in spring (<17.1%) and an isolated high of 30.3% prevalence in a single salt panne. A series of linear and multivariate models showed that panne area, shrimp abundance, and distance to shoreline were related to Pr. pandalicola shrimp infestations in salt pannes in summer. This study describes the prevalence of the bopyrid isopod infesting daggerblade grass shrimp in salt marshes in New England, with implications for how parasitized shrimp influence salt marsh food webs in which they are found. [ABSTRACT FROM AUTHOR]

Published

2024

45. Perennial grass seed bank in litter patches. Co-occurrence with forb and annual grass seed banks constraints the reestablishment in disturbed Patagonian Monte rangelands.

Author

Bertiller, Mónica B. and Carrera, Analía L.

Subjects

RANGELANDS, SEEDS, SHRUBS, PERENNIALS, GRASSES, SEED size

Abstract

We assessed the effect of grazing and plant patchiness on the perennial grass seed bank in litter patches in relation to co-occurring shrub, annual grass, and forb seed banks in disturbed rangelands of the Patagonian Monte. We hypothesized that litter patches in disturbed rangelands have a perennial grass seed bank but co-occurring seed banks of annual lifeforms reduce the opportunities for perennial grass reestablishment at these patches. We evaluated the effect of microsite (bare soil vs. vegetated) and grazing (grazed vs, non-grazed) on the (1) size (seeds m−2) of the four seed banks, (2) frequency of microsites with the respective seeds, and (3) frequency of co-occurrence of the perennial grass with shrub, annual grass and forb seed banks in litter patches at 5 dates (2009–2011). We found the smallest perennial grass and annual grass seed banks in litter patches under grazing and in bare soil microsites. The shrub and forb seed banks in litter patches were smaller at vegetated than at bare soil microsites under grazing and the reverse occurred in non-grazed conditions. The sizes of all seed banks were positively related to the frequency of litter patches with the respective seeds. In these litter patches, the size of perennial grass and shrub seed banks did not vary with grazing, and/or microsite while the size of annual grass and forb seed banks decreased with grazing and increased in vegetated microsites. The perennial grass seed bank in litter patches co-occurred mostly with forb and annual grass seed banks (several times larger). This is probably a constraint for the reestablishment of perennial grasses. However, although scarce, litter patches with exclusive perennial grass seed bank or co-occurring perennial grass and shrub seed banks could be an opportunity for perennial grass reestablishment. [ABSTRACT FROM AUTHOR]

Published

2024

46. Quality of Red Clover Forage in Different Organic Production Systems.

Author

Purwin, Cezary, Żuk-Gołaszewska, Krystyna, Tyburski, Józef, Borsuk-Stanulewicz, Marta, and Stefańska, Barbara

Subjects

RED clover, POTASSIUM sulfate, GRASSES, ACETIC acid, INVESTIGATIONAL therapies

Abstract

The aim of this study was to determine the quality of organically grown red clover herbage and silage after being influenced by supplementary mineral fertilization. The experimental treatments were as follows: control treatment without fertilization (group C), treatment where kalimagnesia (Patentkali) was applied (group P), and treatment where potassium sulfate (SOP) was applied (group S). In each year of the experiment, first-cut herbage was harvested at the beginning of flowering and ensiled. The year of the study had a significant (p ≤ 0.05) influence on the analyzed parameters of herbage and silage, excluding the content of calcium (Ca), acetic acid (AA), and ammonia nitrogen (N-NH3). The organic production system exerted a significant (p ≤ 0.05) effect on the concentrations of crude protein (CP), acid detergent lignin (ADL), water-soluble carbohydrates (WSC), minerals (P, K, Ca, Na), lactic acid (LA), ethanol, and N-NH3. The pattern of fermentation was affected by both experimental factors. True protein (TP) content was determined at 70–84% CP in herbage and 53–65% CP in silages. The energy value and the protein value of herbage varied significantly across years of the study and in response to the combined effects of both experimental factors (p ≤ 0.05). Red clover grown in organic production systems supplied high-quality forage. [ABSTRACT FROM AUTHOR]

Published

2024

47. Short‐term grazing reduced community stability by decreasing community‐wide asynchrony and dominant species stability.

Author

Hao, Jie, Diao, Huajie, Su, Yuan, Xu, Peidong, Dong, Kuanhu, and Wang, Changhui

Subjects

GROUP dynamics, STRUCTURAL equation modeling, PLANT diversity, CHEMICAL composition of plants, SPECIES diversity, GRASSLANDS

Abstract

The effects of grazing on natural grasslands' plant composition, diversity, and productivity depend on the intensity of grazing. Besides grazing intensity, animal composition is also important. However, whether and how sheep grazing intensity affects the temporal biomass stability of plant communities is unclear. Here, we conducted a 5‐year grazing experiment to evaluate the effects of four grazing intensities on community biomass stability and the underlying mechanisms. Our results showed that the higher grazing intensity significantly decreased community biomass stability, community‐wide asynchrony, functional groups asynchrony, dominant species stability, and species dominance, but did not affect species richness. The results of structural equation modeling revealed that grazing decreased community biomass stability by decreasing dominant species stability and community‐wide asynchrony, which was attributable to the reduction in plant functional group asynchrony. Our results highlight the importance of functional group composition and dynamics in predicting the changes in community function in sheep grazing grassland ecosystems. Under continuous seasonal grazing conditions, the sustainable function and human services of grasslands in the agropastoral ecotone might decrease in the future. [ABSTRACT FROM AUTHOR]

Published

2024

48. Different phenological behaviour of native and exotic grasses extends the period of pollen exposure with clinical implications in the Madrid Region, Spain.

Author

Galán Díaz, Javier, Romero-Morte, Jorge, Cascón, Ángel, Gutiérrez-Bustillo, Adela Montserrat, Cervigón, Patricia, and Rojo, Jesús

Abstract

Exotic allergenic species constitute an important element of global change and are an emergent health issue in Europe due to their potential allergenicity. The grass pollen season is of great importance from the allergic point of view because it includes pollen from ubiquitous species which are responsible for high sensitization rates. In this study, we used flowering phenology data for dominant grass species in the city of Madrid (Spain) and airborne pollen data to explore differences between native and exotic species and their potential contribution to the observed peaks of pollen exposure. We found that exotic grasses flowered later than Mediterranean native grasses, and that ornamental grass species (such as Cortaderia selloana and Pennisetum villosum) cause an unusual second pollen season in autumn with implications for public health. These results support the need to coordinate the efforts of plant ecologists and aerobiologists to protect the population by identifying sources of allergenic pollen and sustain the appropriate urban plans. [ABSTRACT FROM AUTHOR]

Published

2024

49. Subsistence and Stress

Author

King, Glenn E. and King, Glenn E.

Published

2024

50. Characterization of the DNA accessibility of chloroplast genomes in grasses.

Author

Liu, Yinmeng, Zhan, Jinling, Li, Junjie, Lian, Mengjie, Li, Jiacheng, Xia, Chunjiao, Zhou, Fei, and Xie, Weibo

Subjects

*CHLOROPLASTS, *CHLOROPLAST DNA, *PROTEIN binding, *GRASSES, *GENETIC transcription regulation, *GENE expression, *CHROMATIN

Abstract

Although the chloroplast genome (cpDNA) of higher plants is known to exist as a large protein-DNA complex called 'plastid nucleoid', researches on its DNA state and regulatory elements are limited. In this study, we performed the assay for transposase-accessible chromatin sequencing (ATAC-seq) on five common tissues across five grasses, and found that the accessibility of different regions in cpDNA varied widely, with the transcribed regions being highly accessible and accessibility patterns around gene start and end sites varying depending on the level of gene expression. Further analysis identified a total of 3970 putative protein binding footprints on cpDNAs of five grasses. These footprints were enriched in intergenic regions and co-localized with known functional elements. Footprints and their flanking accessibility varied dynamically among tissues. Cross-species analysis showed that footprints in coding regions tended to overlap non-degenerate sites and contain a high proportion of highly conserved sites, indicating that they are subject to evolutionary constraints. Taken together, our results suggest that the accessibility of cpDNA has biological implications and provide new insights into the transcriptional regulation of chloroplasts. ATAC-seq analyses across five grasses reveal that chloroplast DNA accessibility varies across regions and genes, and identified putative protein binding footprints that colocalize with known functional elements and are evolutionarily constrained [ABSTRACT FROM AUTHOR]

Published

2024