Your search keyword '"Johnson, Paul G."' showing total 10 results

1. Response to salt stress imposed on cultivars of three turfgrass species: Poa pratensis, Lolium perenne, and Puccinellia distans.

Author

Bushman, B. Shaun, Robbins, Matthew D., Robins, Joseph G., Thorsted, Kimberly, Harris, Paul, and Johnson, Paul G.

Subjects

LOLIUM perenne, BLUEGRASSES (Plants), TURFGRASSES, RYEGRASSES, CARBOHYDRATE metabolism, SPECIES

Abstract

Cool‐season turfgrasses can be subjected to salt stress through a variety of sources, and selection for salt tolerance is an increasingly high priority. Two of the main turfgrass species in temperate regions are perennial ryegrass (Lolium perenne L.) (PRG) and Kentucky bluegrass (Poa pratensis L.) (KBG), and greenhouse evaluations have occurred to rank and characterize salt tolerance in each species. However, salt tolerance in a field setting in a semiarid climate has not been tested, and the genetic mechanisms by which each species specifically responds to salt stress is still unclear. In this study, we evaluated salt tolerance of 10 PRG and 12 KBG entries in a field setting and compare their salt tolerances to two alkaligrass cultivars. Using electrolyte leakage (EL) and turf green cover, tolerant and susceptible cultivars and accessions were identified from both species. Transcriptome‐level gene expression analysis was applied on a subset of the entries, and 62 differentially expressed transcripts were shared among the three species with a preponderance of transcripts involving carbohydrate metabolism, oxidation‐reduction processes, and ion transport within the cell. Upon further gene enrichment analysis of KBG, more transcripts in those three categories were found. The differentially expressed transcripts (DETs) represent mechanisms by which PRG and KBG respond to salt stress, as well as targets for selection for salt tolerance. [ABSTRACT FROM AUTHOR]

Published

2020

2. Transcriptome profiling of Kentucky bluegrass (Poa pratensis L.) accessions in response to salt stress.

Author

Bushman, B. Shaun, Amundsen, Keenan L., Warnke, Scott E., Robins, Joseph G., and Johnson, Paul G.

Subjects

KENTUCKY bluegrass, TURFGRASSES, GENE expression in plants, TRANSCRIPTION factors, OXIDATION-reduction reaction, POLYPLOIDY in plant chromosomes, GENETIC testing

Abstract

Background: Kentucky bluegrass (Poa pratensis L.) is a prominent turfgrass in the cool-season regions, but it is sensitive to salt stress. Previously, a relatively salt tolerant Kentucky bluegrass accession was identified that maintained green colour under consistent salt applications. In this study, a transcriptome study between the tolerant (PI 372742) accession and a salt susceptible (PI 368233) accession was conducted, under control and salt treatments, and in shoot and root tissues. Results: Sample replicates grouped tightly by tissue and treatment, and fewer differentially expressed transcripts were detected in the tolerant PI 372742 samples compared to the susceptible PI 368233 samples, and in root tissues compared to shoot tissues. A de novo assembly resulted in 388,764 transcripts, with 36,587 detected as differentially expressed. Approximately 75 % of transcripts had homology based annotations, with several differences in GO terms enriched between the PI 368233 and PI 372742 samples. Gene expression profiling identified salt-responsive gene families that were consistently down-regulated in PI 372742 and unlikely to contribute to salt tolerance in Kentucky bluegrass. Gene expression profiling also identified sets of transcripts relating to transcription factors, ion and water transport genes, and oxidation-reduction process genes with likely roles in salt tolerance. Conclusions: The transcript assembly represents the first such assembly in the highly polyploidy, facultative apomictic Kentucky bluegrass. The transcripts identified provide genetic information on how this plant responds to and tolerates salt stress in both shoot and root tissues, and can be used for further genetic testing and introgression. [ABSTRACT FROM AUTHOR]

Published

2016

3. Physiological Responses of Turfgrass Species to Drought Stress under High Desert Conditions.

Author

Leksungnoen, Nisa, Johnson, Paul G., and Kjelgren, Roger K.

Subjects

*WATER shortages, *DROUGHTS, *WEATHER, *TURFGRASSES, *KENTUCKY bluegrass

Abstract

Broad concerns over water shortages and drought where irrigated urban landscapes are common in high desert regions have focused attention on drought tolerance of turfgrass species. We investigated the physiological responses of kentucky bluegrass (KBG) and tall fescue (TF) under a prolonged drought under high desert conditions. The experimental design was a split plot with three replicates. Two irrigation treatments as a whole plot--well-watered and no water--were applied to subplots of 'Midnight' KBG and 'Gazelle' TF. Stomatal conductance (gs), canopy temperature, and predawn leaf water potential were measured over two seasons. KBG gs and leaf water potential decreased faster and to a greater extent than TF in response to soil drying, and KBG was in complete dormancy and brown within 5 weeks after cessation of irrigation. By contrast, TF maintained a green canopy throughout the drought periods, in the nowater plots, TF appeared to consume water from the deepest measured soil profiles (80- to 100-cm depth), whereas KBG used most of the water in the 50- to 60-cm depths. When watered for recovery in late summer, KBG plots were mostly green within 3 weeks after rewatering. The surface temperature of the well-watered plots was 6-13 °C cooler than the no-water plots and TF showed 5-7 °C lower temperature than KBG in no-water plots. TF is suitable for deep soil, exploiting a larger volume of water to avoid drought, whereas KBG's rapid drought avoidance would likely perform better in shallow landscape soils under drought. [ABSTRACT FROM AUTHOR]

Published

2012

4. Inheritance of flowering pattern among four annual bluegrass (Poa annua L.) genotypes.

Author

Johnson, Paul G. and White, Donald B.

Subjects

*TURFGRASSES

Abstract

Presents information on a study of turfgrass while focusing on a inheritance study to investigate the genetic control of flowering pattern in four representative genotypes. Where turfgrass is most commonly found; What turfgrass is usually considered as; Objective of the study; Detailed information on the methods used; Results of the study.

Published

1998

5. Tools for Evaluating Native Grasses as Low Maintenance Turf.

Author

Bunderson, Landon D., Johnson, Paul G., Kopp, Kelly L., and Van Dyke, Adam

Subjects

TURFGRASSES, CHLOROPHYLL, FERTILIZER application, EVAPOTRANSPIRATION, COLOR of plants

Abstract

Visual ratings are the standard for evaluating turfgrass quality. However, to provide more objective evaluations and to address statistical concerns, other methods have been developed to measure turfgrass quality, including digital image analysis and measurements of chlorophyll content. These have been largely applied to traditionally used turfgrass species, but here we used these methods to evaluate turfgrass quality of nontraditional species and mixtures that are native or adapted to the intermountain west region of North America. Two fertilizer treatments (1.0 or 2.0 lb/1000 ft² nitrogen) were applied to 21 different species and species mixtures in North Logan, UT. These plots were irrigated to replace 60% of the local evapotranspiration rate and were mowed at 4 inches. Turfgrass quality ratings were most effective in measuring quality among the diverse species used in this study. Because of the wider variation in acceptable visual characteristics and lower quality expectations for low-maintenance native turf, the objective evaluation methods proved less useful. Generally, chlorophyll meter data, digital image analysis of cover, and digital image analysis of color data were not well correlated with human visual quality ratings in this study. Measurements were well correlated in some species, but not in others. These methods can supplement, but cannot replace, human visual turfgrass quality ratings for comparison of dissimilar grasses. [ABSTRACT FROM AUTHOR]

Published

2009

6. How to Retain Nutrients on Calcerous Sand Greens.

Author

Johnson, Paul G., Koenig, Rich, and Kopp, Kelly

Subjects

PLANT nutrients, CALCAREOUS soils, NITROGEN fertilizers, POTASSIUM fertilizers, PHOSPHATE fertilizers, TURFGRASSES, PUTTING (Golf)

Abstract

Examines ways to retain plant nutrients in calcareous sand greens. Experiment on the level of nutrients on a putting green; Method used to rate turf grass quality of the plots; Effects of nitrogen, phosphorus and potassium fertilization on turf grasses.

Published

2004

7. Potential for the Improvement of Turf Quality in Crested Wheatgrass for Low-maintenance Conditions.

Author

Robins, Joseph G., Waldron, Blair L., and Johnson, Paul G.

Subjects

*WHEATGRASSES, *TURFGRASSES, *PLANT breeding, *DORMANCY in plants, *ARID regions

Abstract

With the exception of the undesirable characteristic of summer dormancy and the accompanying low aesthetic value, crested wheatgrass has many desirable characteristics in semiarid environments, making it a promising candidate for lower water use turf. Using a population of 27 half-sib families, this study characterized the underlying genetics of turf quality (based on a 1-9 rating scale) of crested wheatgrass and compared the performance of crested wheatgrass turf with traditional control cultivars ('Cody' buffalograss, 'Gazelle' tall fescue, 'Manhattan 3' perennial ryegrass, and 'Midnight' Kentucky bluegrass) over 2 years under space-planted conditions. Heritability estimates were generally high (h² = 0.44 to 0.84) and suggested a strong additive genetic component for crested wheatgrass turf quality throughout the summer months. Genotypic correlations among the monthly turf quality scores were very high (greater than 0.90) indicating a strong commonality for the genetics underlying turf quality during any point in the growing season. Thus, a breeding program aimed at improving turf quality in this population of crested wheatgrass would stand a good chance for success. However, primarily as a result of summer dormancy, the crested wheatgrass turf performed poorly compared with the control cultivars during late spring and early summer. Turf quality scores in early July were ~3 for the crested wheatgrass half-sib families compared with scores between 5 and 6 for the traditional turf species. Thus, crested wheatgrass, for the near future, will likely be a viable turf candidate only in situations in which turf aesthetics are secondary to a desire for low-input requiring species. [ABSTRACT FROM AUTHOR]

Published

2007

8. Growth and Water Relations of Littleleaf Linden Trees Established in Irrigated Buffalograss and Kentucky Bluegrass.

Author

Stewart, J. Ryan, Kjelgren, Roger, Johnson, Paul G., and Kuhns, Michael R.

Subjects

*TREES, *TURFGRASSES, *GRASSES, *VEGETATION & climate, *SAINT Augustine grass, *BLUEGRASSES (Plants)

Abstract

Although transplanted trees typically establish and grow without incident in frequently irrigated turfgrass, their performance in precisely irrigated turfgrass in an arid climate is not known. We investigated the effect of precision irrigation scheduling on growth and water relations of bailed-and-burlapped littleleaf linden (Tilia cordata Mill. 'Greenspire') planted in buffalograss (Buchloë dactyloides [Nutt.] Engelm. 'Tatanka') and kentucky bluegrass (Poa pratensis L.). Over 2 years, trees in turfgrass were irrigated either by frequent replacement based on local reference evapotranspiration, or precision irrigated by estimating depletion of soil water to the point of incipient water stress for each turfgrass species. Predawn leaf water potential and stomatal conductance of trees were measured during first-year establishment, and predawn leaf water potential was measured during a mid-season water-deficit period during the second year. Trunk diameter growth and total tree leaf area were measured at the end of each year. Values of predawn leaf water potential and stomatal conductance of trees in precision-irrigated buffalograss were lower (-0.65 MPa, 25.3 mmol·m-2·s-1) than those of trees in the other treatments near the end of the first growing season. The longer interval between precision irrigations resulted in mild water stress, but was not manifested in growth differences among trees across treatments during the first season. During the water-deficit period of the second year, there was no evidence of stress among the trees regardless of treatment. At the end of the second season, total leaf area of trees grown in precision-irrigated kentucky bluegrass (1.10 ± 0.34 m²) was 46% of that of trees grown in buffalograss (2.39 ± 0.82 m²) that were irrigated frequently. Trunk diameter growth of trees in frequently irrigated kentucky bluegrass (1.91 ± 2.65 mm) was 29% of that of the trees grown in buffalograss (6.68 ± 1.68 mm), regardless of irrigation treatment, suggesting a competition effect from kentucky bluegrass. We conclude that frequent irrigation of balled-and-burlapped trees in turfgrass, particularly buffalograss, is more conducive to tree health during establishment than is maximizing the interval between turfgrass irrigation. Regardless of irrigation schedule, kentucky bluegrass appears to impact tree growth severely during establishment in an arid climate. [ABSTRACT FROM AUTHOR]

Published

2005

9. Responses of Tolerant and Susceptible Kentucky Bluegrass Germplasm to Salt Stress.

Author

Bushman, B. Shaun, Lijun Wang, Xin Dai, Joshi, Alpana, Robins, Joseph G., and Johnson, Paul G.

Subjects

*KENTUCKY bluegrass, *BLUEGRASSES (Plants), *CULTIVARS, *TURFGRASSES, *PLANT germplasm, *MANAGEMENT

Abstract

Much of semiarid western North America is salt affected, and using turfgrasses in salty areas can be challenging. Kentucky bluegrass (Poa pratensis L.) is relatively susceptible to salt stress, showing reduced growth, osmotic and ionic stress, and eventual death at moderate or high salt concentrations. Considerable variation exists for salt tolerance among kentucky bluegrass germplasm, but gaining consistency among studies and entries has been a challenge. In this study, two novel kentucky bluegrass accessions recently reported as salt tolerant (PI 371768 and PI 440603) and two cultivars commonly used as references (Baron and Midnight) were compared for their turf quality (TQ), stomatal conductance (gs), leaf water potential (ψLEAF), electrolyte leakage (EL), and accumulation of inorganic ions under salt stress. TQ, ψLEAF, and EL were highly correlated with each other while only moderately correlated with gs. The tolerant accessions showed higher ψ LEAF and lower EL than the cultivars Midnight and Baron at increasing salt concentrations and over 28 days of treatment. The accumulation of sodium (Na) and calcium (Ca) in the leaves was highly correlated and did not vary significantly among the four entries. Genes involved in ion transport across membranes, and in antioxidant activities, were significantly induced on salt stress in the tolerant accessions relative to the susceptible. These data indicate the ability of tolerant accessions to ameliorate oxidative stress and prevent EL, and confirmed the tolerance of germplasm previously reported on while indicating mechanisms by which they tolerate the salt stress. [ABSTRACT FROM AUTHOR]

Published

2016

10. Variation within Poa Germplasm for Salinity Tolerance.

Author

Robins, Joseph G., Bushman, B. Shaun, Waldron, Blair L., and Johnson, Paul G.

Subjects

*KENTUCKY bluegrass, *PLANT germplasm, *SALINITY, *IRRIGATION, *TURFGRASSES

Abstract

As competition for water resources in areas of western North America intensify as a result of increasing human populations, the sustainability of turfgrass irrigation with limited water resources is questionable. A potential part of the solution is the use of recycled wastewater for landscape irrigation. However, as a result of high levels of salt, successful irrigation with recycled wastewater will likely need to be coupled with selection for increased salinity tolerance in turfgrass species. Additionally, salinity tolerant turfgrass will allow production on soils with inherently high salt levels. The study described here characterized the relative salinity tolerance of 93 accessions of Poa germplasm from the USDA National Plant Germplasm System (NPGS). Control cultivars of tall fescue [Lolium arundinaceum (Schreb.) S.J. Darbyshire], perennial ryegrass (Lolium perenne L.), and kentucky bluegrass (Poa pratensis L.) were also evaluated for comparison. Kentucky bluegrass accessions exhibited a wide range of LD50 (salinity dosage necessary to kill 50% of plants) values from 811 ECdays (PI 369296 from Russia) to 1922 ECdays (PI 371768 from the United States). Five kentucky bluegrass accessions exhibited salinity tolerance equal to or better than that of the tall fescue (LD50 = 1815 ECdays) and perennial ryegrass (LD50 = 1754 ECdays) checks. Thus, there is sufficient variation within this species to develop bluegrass with substantially higher salinity tolerance. [ABSTRACT FROM AUTHOR]

Published

2009