37 results on '"Haling, Rebecca E."'
Search Results
2. Phosphorus fertiliser value of sewage sludge ash applied to soils differing in phosphate buffering and phosphate sorption capacity
- Author
-
Battisti, Michela, Simpson, Richard J., Stefanski, Adam, Richardson, Alan E., and Haling, Rebecca E.
- Published
- 2022
- Full Text
- View/download PDF
3. Root proliferation and phosphorus acquisition in response to stratification of soil phosphorus by two contrasting Trifolium subterraneum cultivars
- Author
-
McLachlan, Jonathan W., Flavel, Richard J., Guppy, Chris N., Simpson, Richard J., and Haling, Rebecca E.
- Published
- 2020
4. Root proliferation in response to P stress and space : implications for the study of root acclimation to low P supply and P acquisition efficiency
- Author
-
McLachlan, Jonathan W., Haling, Rebecca E., Simpson, Richard J., Flavel, Richard J., and Guppy, Chris N.
- Published
- 2020
5. Developmental patterns of flowers and pods and the effect on seed number in French serradella (Ornithopus sativus) and yellow serradella (Ornithopus compressus) cultivars.
- Author
-
Goward, Laura E., Haling, Rebecca E., Smith, Rowan W., Penrose, Beth, and Simpson, Richard J.
- Subjects
- *
SEED pods , *FLOWERING of plants , *FLOWERS , *SEED yield , *FLOWERING time , *CULTIVARS , *LEGUMES - Abstract
Context: Reliable seed production is a key requirement for successful year-on-year regeneration of annual pasture legumes. Aims: The study aims were to investigate the developmental patterns of flowers and pods and the effect on seed number among cultivars of French (Ornithopus sativus Brot.) and yellow serradella (O. compressus L.); and to assess the effects of early flower loss. Methods: Four cultivars of each species were grown in a glasshouse under non-limiting growth conditions. Date of flowering and numbers of flowers, pods and seeds were assessed for up to 20 reproductive nodes on two stem axes per plant (n = 5 plants). A flower removal treatment was imposed to assess whether early flower loss affected flower and/or pod production. Key results: Flowering in the serradellas was indeterminate, but for all cultivars there was a peak period of flower and pod production, with the timing and duration of the peak period differing among cultivars. Peak flowering occurred primarily because the proportion of plants flowering began to decline, but the number of flowers per reproductive node and the number of pods formed per node also declined with time. Compensation for early flower loss was observed for most cultivars because of a longer duration of pod formation and/or greater numbers of pods developed on higher reproductive nodes. Conclusions: This study demonstrated that there is diversity in the patterns of flowering and podding and number of seeds initiated among serradellas. Implications: Diversity in flowering and podding patterns combined with a capacity to compensate for early flower loss may be used to develop serradellas better able to cope with environmental stressors (frost, drought, heat) experienced during the flowering window. To ensure the continued existence of annual legume species in temperate regions, it is essential to understand the factors contributing to successful seed production; for instance, certain cultivars of French and yellow serradella occasionally flower at suboptimal times, potentially leading to reduced seed production. This study uncovered differences in how these cultivars produce flowers, pods and seeds. Some showed the ability to adapt to early flower loss, suggesting that selective breeding could improve seed yield resilience. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
6. The carboxylate composition of rhizosheath and root exudates from twelve species of grassland and crop legumes with special reference to the occurrence of citramalate
- Author
-
Kidd, Daniel R., Ryan, Megan H., Hahne, Dorothee, Haling, Rebecca E., Lambers, Hans, Sandral, Graeme A., Simpson, Richard J., and Cawthray, Gregory R.
- Published
- 2018
7. Differences in nutrient foraging among Trifolium subterraneum cultivars deliver improved P-acquisition efficiency
- Author
-
Haling, Rebecca E., Brown, Lawrie K., Stefanski, Adam, Kidd, Daniel R., Ryan, Megan H., Sandral, Graeme A., George, Timothy S., Lambers, Hans, and Simpson, Richard J.
- Published
- 2018
8. Growth and root dry matter allocation by pasture legumes and a grass with contrasting external critical phosphorus requirements
- Author
-
Haling, Rebecca E., Yang, Zongjian, Shadwell, Natalie, Culvenor, Richard A., Stefanski, Adam, Ryan, Megan H., Sandral, Graeme A., Kidd, Daniel R., Lambers, Hans, and Simpson, Richard J.
- Published
- 2016
9. Rhizosphere carboxylates and morphological root traits in pasture legumes and grasses
- Author
-
Kidd, Daniel R., Ryan, Megan H., Haling, Rebecca E., Lambers, Hans, Sandral, Graeme A., Yang, Zongjian, Culvenor, Richard A., Cawthray, Gregory R., Stefanski, Adam, and Simpson, Richard J.
- Published
- 2016
10. Root hair length and rhizosheath mass depend on soil porosity, strength and water content in barley genotypes
- Author
-
Haling, Rebecca E., Brown, Lawrie K., Bengough, A. Glyn, Valentine, Tracy A., White, Philip J., Young, Iain M., and George, Timothy S.
- Published
- 2014
11. Erratum to: Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method
- Author
-
Haling, Rebecca E., Simpson, Richard J., McKay, Alan C., Hartley, Diana, Lambers, Hans, Ophel-Keller, Kathy, Wiebkin, Sue, Herdina, Riley, Ian T., and Richardson, Alan E.
- Published
- 2013
12. Application of X-ray computed tomography to quantify fresh root decomposition in situ
- Author
-
Haling, Rebecca E., Tighe, Matthew K., Flavel, Richard J., and Young, Iain M.
- Published
- 2013
- Full Text
- View/download PDF
13. Flowering responses of serradella (Ornithopus spp.) and subterranean clover (Trifolium subterraneum L.) to vernalisation and photoperiod and their role in maturity type determination and flowering date stability.
- Author
-
Goward, Laura E., Haling, Rebecca E., Smith, Rowan W., Penrose, Beth, and Simpson, Richard J.
- Subjects
- *
CLOVER , *FLOWERING of plants , *FLOWERS , *FLOWER shows , *SPRING , *AUTUMN , *SEED industry - Abstract
Context: Serradellas (Ornithopus spp.) are promising alternative annual legumes to subterranean clover (Trifolium subterraneum L.), for permanent, temperate pastures. However, many cultivars exhibit unstable flowering dates across years. This is a risk for seed production and persistence. Aim: This study assessed how vernalisation and photoperiod cues determine maturity type and flowering date stability among serradella cultivars. Methods: First flower appearance was recorded for early and late maturing cultivars of yellow serradella (Ornithopus compressus L.), French serradella (Ornithopus sativus Brot.) and subterranean clover after exposure to six vernalisation treatments (0, 1, 3, 5, 7 or 9 weeks at 5°C) with subsequent growth under four photoperiods (8, 12, 16 or 20 h). Key results: 'Intrinsic earliness' differed by only zero to three nodes for cultivars within species, indicating that maturity type was determined primarily by a cultivar's responses to vernalisation and photoperiod. An interaction between these responses was observed, with a precipitous decline in the requirement for vernalisation when photoperiods exceeded 12 h. Many cultivars also displayed a persistent component to their vernalisation response, whereby long photoperiods (20 h) did not completely negate the response to vernalisation. Conclusions: Later maturity was associated particularly with need for long exposure to the vernalisation treatment to minimise the duration from sowing to first flower appearance. Stable flowering is more likely when a cultivar has components of its vernalisation requirement that are not satisfied before autumn ends to prevent premature flowering, and a photoperiod response in spring that overrides any unmet vernalisation requirement. Implications: Persistence by serradella cultivars requires selection for suitable responsiveness to vernalisation and photoperiod. Serradellas are promising alternative legumes to subterranean clover for permanent, temperate pastures. However, many cultivars exhibit unstable flowering dates. This is a risk for seed production and persistence. Later maturity was particularly associated with need for long exposure to the vernalisation treatment to hasten flowering. Stable flowering is more likely when a cultivar has components of its vernalisation requirement that are not satisfied before autumn ends to prevent premature flowering, and a photoperiod response in spring that overrides any unmet vernalisation requirement. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. Variation in flowering time and flowering date stability within a cultivar of French serradella.
- Author
-
Haling, Rebecca E., Goward, Laura, Stefanski, Adam, and Simpson, Richard J.
- Subjects
- *
RANGE management , *FLOWERING time , *SPRING , *AUTUMN , *SOIL classification , *FLOWERS - Abstract
Context: Opportunity exists to expand serradella (Ornithopus spp.) use onto heavier, duplex soil types in permanent pasture environments of south-eastern Australia. This requires cultivars with appropriate flowering times and flowering-date stability (i.e. flowering at the same date in spring regardless of timing of the autumn break). Aim: This work examined evidence of variation in flowering date and flowering-date stability in the NSW southern tablelands for a widely-used French serradella (O. sativus) cv. Margurita. Methods: Seed (sourced from a commercial supplier) was sown 21 March 2019 (Canberra, ACT) and 231 individual plants were monitored for time to first flower. A subset of plants exhibiting 'early' or 'late' flowering were identified and their seeds collected. In 2020, seed from ~15 plants from each selection was sown in Canberra in late March and early May to represent an 'early' and a 'later' break of season (n = 3). Key results: In the early-sown treatment, 'early-flowering' selections typically reached the median date of first flower (50%-flowering) from mid- to late August, while 'late-flowering' selections reached 50%-flowering early- to mid-September. When sown later, the 'early-flowering' selections began flowering from mid- to late September, while the 'late-flowering' selections flowered mid-September to early October. The 'early' selections exhibited greater flowering-date instability than 'late' selections and flowered particularly early when sown early. This indicated diversity within cv. Margurita for flowering-time control (e.g. vernalisation and/or photoperiod requirements). Implications: Evaluating cultivars of serradellas for flowering date and flowering date stability in their target environment(s) is essential to ensure cultivars are suitably adapted to these environments. Serradellas (Ornithopus spp.) are a novel legume option for the permanent pasture environments of south-eastern Australia. This paper investigated evidence of variation in flowering time characteristics within a widely used cultivar of French serradella. We recommend that new cultivars of serradellas be evaluated for flowering time characteristics in their target environment(s) to assess whether the cultivars are suitably adapted to these environments. This is essential to maximise production, feeding value and facilitate effective grazing management. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
15. Hard seed breakdown patterns of serradella (Ornithopus spp.) in two contrasting environments of south-eastern Australia.
- Author
-
Newell, Matthew T., Haling, Rebecca E., Hayes, Richard C., Stefanski, Adam, Li, Guangdi D., and Simpson, Richard J.
- Subjects
- *
CLOVER , *CULTIVARS , *SEEDS , *GROWING season , *AUTUMN , *PASTURES - Abstract
Context: There is interest in using serradella (Ornithopus spp.) in permanent pastures of the high rainfall zone of south-eastern Australia. However, there is little information concerning levels of hardseededness or patterns of seed softening in these environments. Aim: This study quantified seed softening of serradella species in comparison with subterranean clover (Trifolium subterraneum L.) in the Southern Tablelands and Central Slopes districts of eastern Australia. Methods: Mature seeds were placed in mesh pouches on the soil surface and were retrieved periodically to assess residual hard seed proportions throughout the growing season(s) in four experiments conducted over 2018 and 2019. Key results: Patterns of seed softening among adapted cultivars of subterranean clover were consistent: initially high proportions of hard seed, followed by rapid softening from mid-summer to the end of autumn with the remnant portion of seeds remaining hard. In contrast, diverse patterns of seed softening were observed among serradella cultivars, ranging from highly soft-seeded through to high initial hard seed portions that either softened rapidly or softened over a lengthy period. Rates of seed softening were faster in the warmer/drier environment of Cowra compared to the wetter/cooler environment of Canberra. Conclusions: The study revealed seed softening patterns among serradellas to be diverse and different to subterranean clover. This will affect management and suitability of serradella cultivars for permanent pastures. Implications: In permanent pastures, serradellas that soften slowly over several years are likely to have limited regeneration in the year after pasture establishment with a high potential for weed invasion. Serradella has many advantages as a pasture legume, however persistence and productivity in permanent pastures can be inadequate. This study quantified seed softening of serradella species in comparison with subterranean clover in the Southern Tablelands and Central Slopes districts of eastern Australia. Diverse patterns of seed softening were observed among serradella cultivars, in contrast to subterranean clover. Implications for pasture establishment of serradella in high rainfall zone permanent pastures is discussed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
16. Legume persistence for grasslands in tableland environments of south-eastern Australia.
- Author
-
Hayes, Richard C., Newell, Matthew T., Li, Guangdi D., Haling, Rebecca E., Harris, Carol A., Culvenor, Richard A., Badgery, Warwick B., Munday, Neil, Price, Andrew, Stutz, Rebecca S., and Simpson, Richard J.
- Subjects
CLOVER ,LEGUMES ,GRASSLANDS ,WHITE clover ,LEGUME farming ,GRASSLAND soils ,ALFALFA ,FIELD research - Abstract
Context: Improving the stability of legumes in grasslands in the face of variable seasonal conditions is key to mitigating risks posed by drought. Aims: We assessed the persistence of a range of legume species and cultivars in order to inform legume choice for pasture improvement and identify priority species for further development. Methods: Twenty field experiments in four series were conducted at sites with contrasting seasonal and soil characteristics in the 'high-rainfall' (560–920 mm long-term average) Tablelands and Monaro regions of New South Wales, Australia. Legumes were grown as pure swards and assessed periodically for seedling density, plant frequency and dry matter for up to 5 years. Key results: Legume dry matter production was positively correlated with plant frequency. However, most legumes persisted poorly at most sites, particularly on soils of lower fertility. Subterranean clover (Trifolium subterraneum) cv. Goulburn was the best performing cultivar of that species across sites on the Southern Tablelands and Monaro. Yellow serradella (Ornithopus compressus) cvv. Avila and Yellotas showed promising persistence, particularly under drought conditions. White clover (T. repens) was the most broadly adapted of the perennial legumes across a range of soils, but persistence was still inadequate at many sites. Lucerne (Medicago sativa) was approximately twice as productive as the next-most productive species when soil conditions suited its growth, but it failed to persist on acidic, low-fertility soils. Conclusions: Serradella species (yellow and French, O. sativus) and white clover, in conjunction with subterranean clover, offer the best near-term prospects for diversifying legume productivity and resilience under variable seasonal conditions in tableland environments. Implications: An increased focus on phenology and seed characteristics is suggested to improve the persistence of annual and facultative perennial legume species in grasslands. Serradella and white clover are identified as the highest priorities for cultivar development for tableland environments of south-eastern Australia. This study evaluated the stability and persistence of a range of legume species and cultivars to identify viable options for grasslands of south-eastern Australia. Yellow and French serradella, white clover and subterranean clover were identified as priority species because they are already, or are close to being, viable options for use in grasslands. An increased focus on phenology and seed characteristics is suggested to improve the persistence of white clover and serradella in grasslands. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
17. Root hairs improve root penetration, root–soil contact, and phosphorus acquisition in soils of different strength
- Author
-
Haling, Rebecca E., Brown, Lawrie K., Bengough, A. Glyn, Young, Iain M., Hallett, Paul D., White, Philip J., and George, Timothy S.
- Published
- 2013
- Full Text
- View/download PDF
18. Field application of a DNA-based assay to the measurement of roots of perennial grasses
- Author
-
Haling, Rebecca E., Simpson, Richard J., Culvenor, Richard A., Lambers, Hans, and Richardson, Alan E.
- Published
- 2012
19. Direct measurement of roots in soil for single and mixed species using a quantitative DNA-based method
- Author
-
Haling, Rebecca E., Simpson, Richard J., McKay, Alan C., Hartley, Diana, Lambers, Hans, Ophel-Keller, Kathy, Wiebkin, Sue, Riley, Ian T., and Richardson, Alan E.
- Published
- 2011
20. Root morphology, root-hair development and rhizosheath formation on perennial grass seedlings is influenced by soil acidity
- Author
-
Haling, Rebecca E., Richardson, Alan E., Culvenor, Richard A., Lambers, Hans, and Simpson, Richard J.
- Published
- 2010
21. Effect of lime on root growth, morphology and the rhizosheath of cereal seedlings growing in an acid soil
- Author
-
Haling, Rebecca E., Simpson, Richard J., Delhaize, Emmanuel, Hocking, Peter J., and Richardson, Alan E.
- Published
- 2010
22. Critical phosphorus requirements of Trifolium species: The importance of root morphology and root acclimation in response to phosphorus stress.
- Author
-
Becquer, Adeline, Haling, Rebecca E., Warren, Anne, Alden Hull, Rowan, Stefanski, Adam, Richardson, Alan E., Ryan, Megan H., Kidd, Daniel R., Lambers, Hans, Sandral, Graeme A., and Simpson, Richard J.
- Subjects
- *
ACCLIMATIZATION , *CLOVER , *SOIL profiles , *SUBSOILS , *MORPHOLOGY , *SPECIES , *ACCLIMATIZATION (Plants) - Abstract
Differences in root morphology and acclimation to low‐phosphorus (P) soil were examined among eight legume species from the Trifolium Section Tricocephalum to understand how these root attributes determine P acquisition. Ornithopus sativus was included as a highly P‐efficient benchmark species. Plants were grown as microswards in pots with five rates of P supplied in a topsoil layer to mimic uneven P distribution within a field soil profile. Topsoil and subsoil roots were harvested separately to enable measurement of the nutrient‐foraging responses. Critical P requirement (lowest P supply for maximum yield) varied over a threefold range, reflecting differences in root morphology and acclimation of nutrient‐foraging roots to P stress. Among the species, there was a 3.2‐fold range in root length density, a 1.7‐fold range in specific root length, and a 2.1‐fold range in root hair length. O. sativus had the lowest critical P requirement, displayed a high root length density, the highest specific root length, and the longest root hairs. Acquisition of P from P‐deficient soil was facilitated by development of a large root hair cylinder (i.e. a large root–soil interface). This, in turn, was determined by the intrinsic root morphology attributes of each genotype, and the plasticity of its root morphology response to internal P stress. Root acclimation in low‐P soil by all species was mostly associated with preferential allocation of mass to nutrient‐foraging roots. Only O. sativus and four of the Trifolium species adjusted specific root length beneficially, and only O. sativus increased its root hair length in low‐P soil. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
23. Intrinsic root morphology determines the phosphorus acquisition efficiency of five annual pasture legumes irrespective of mycorrhizal colonisation.
- Author
-
McLachlan, Jonathan W., Becquer, Adeline, Haling, Rebecca E., Simpson, Richard J., Flavel, Richard J., and Guppy, Chris N.
- Subjects
LEGUMES ,PASTURES ,COLONIZATION ,PLANT root morphology ,MYCORRHIZAL plants ,PHOSPHORUS - Abstract
Mycorrhizal fungi are ubiquitous in agroecosystems and form symbiotic associations that contribute to the phosphorus (P) acquisition of many plants. The impact of mycorrhizas is most pronounced in P-deficient soil and commonly involves modifications to the root morphology of colonised plants. However, the consequences of mycorrhizal colonisation on root acclimation responses to P stress are not well described. Five annual pasture legumes, with differing root morphologies, were grown to determine the effect of mycorrhizal colonisation on shoot yield, root morphology and P uptake. Micro-swards of each legume were established in pots filled with a topsoil layer that had been amended with five rates of P fertiliser. The topsoil overlaid a low-P subsoil that mimicked the stratification of P that occurs under pasture. Mycorrhizal colonisation improved P acquisition and shoot yield in the low-P soil treatments, but did not reduce the critical external P requirement of the legumes for near-maximum yield. The yield responses of the mycorrhizal plants were associated with reduced dry matter allocation to topsoil roots, which meant that the P acquisition benefit associated with mycorrhizal colonisation was not additive in the P-deficient soil. The contribution of the mycorrhizal association to P acquisition was consistent among the legumes when they were compared at an equivalent level of plant P stress, and was most pronounced below a P stress index of ~0.5. The intrinsic root morphology of the legumes determined their differences in P-acquisition efficiency irrespective of mycorrhizal colonisation. Mycorrhizal fungi are ubiquitous in agroecosystems and contribute to the phosphorus acquisition of many plants. Five annual pasture legumes were grown to determine the effect of mycorrhizal fungi on plant adaptations to low phosphorus supply. Mycorrhizal colonisation improved the shoot yield and phosphorus acquisition of the legumes in phosphorus-deficient soil, but markedly reduced root acclimation responses to phosphorus deficiency. The relative efficiency of phosphorus acquisition was dependent on the intrinsic root morphology of the legumes, irrespective of mycorrhizal colonisation. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
24. Field benchmarking of the critical external phosphorus requirements of pasture legumes for southern Australia.
- Author
-
Sandral, Graeme A., Price, Andrew, Hildebrand, Shane M., Fuller, Christopher G., Haling, Rebecca E., Stefanski, Adam, Yang, Zongjian, Culvenor, Richard A., Ryan, Megan H., Kidd, Daniel R., Diffey, Simon, Lambers, Hans, and Simpson, Richard J.
- Subjects
LEGUMES ,PASTURES ,SOIL fertility management ,SOIL testing ,PHOSPHORUS in soils ,GRASSLAND soils ,ALFALFA - Abstract
In recent decades several pasture legumes have been available in southern Australia as potential alternatives to the most widely used annual pasture legume Trifolium subterraneum. Little is known about their soil phosphorus (P) requirements, but controlled environment experiments indicate that at least some may differ in their P fertiliser requirements. In this study, pasture legume varieties, including T. subterraneum as the reference species, were grown at up to four sites in any one year over a 3-year period (in total, seven site × year experiments) to measure herbage growth responses in spring to increased soil P availability. A critical soil test P concentration (corresponding to 95% maximum yield) was estimated for 15 legumes and two pasture grasses. The critical soil P requirements of most of the legumes did not differ consistently from that of T. subterraneum , indicating their soil fertility management should follow the current soil test P guidelines for temperate Australian pastures. However, the critical P requirement of Medicago sativa was higher than that of T. subterraneum , but remains ill-defined because extractable soil P concentrations in these experiments were often not high enough to permit a critical P estimate. Three forage crop legumes (Trifolium incarnatum , Trifolium purpureum , Trifolium vesiculosum) and two pasture legumes (Ornithopus compressus , Ornithopus sativus) had lower critical soil test P concentrations. It may be feasible to manage pastures based on these species to a lower soil test P benchmark without compromising yield. Extractable phosphorus concentrations of soil corresponding to near-maximum pasture legume growth can be used as benchmarks for soil phosphorus management in temperate grass–legume pastures. In this study, the soil phosphorus requirements of alternative pasture legumes used in southern Australia were assessed and compared with that of the widely used legume Trifolium subterraneum. The results indicate that published soil test phosphorus benchmarks for T. subterraneum are appropriate for many alternative legumes, but also demonstrate that some can be fertilised to lower benchmark concentrations without compromising yield. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
25. Variation in root morphology and P acquisition efficiency among Trifolium subterraneum genotypes.
- Author
-
McLachlan, Jonathan W., Haling, Rebecca E., Simpson, Richard J., Li, Xiaoxi, Flavel, Richard J., and Guppy, Chris N.
- Subjects
- *
GENOTYPES , *CLOVER , *MORPHOLOGY , *SUBSOILS , *LEGUME farming , *TOPSOIL , *PLANT-water relationships - Abstract
Trifolium subterraneum L. is widely grown in the phosphorus (P) deficient soils of southern Australia. However, this pasture legume has a high critical external P requirement and requires frequent applications of P fertiliser to achieve high productivity. Twenty-six genotypes of T. subterraneum were grown to determine: (i) differences in shoot growth and P acquisition under low-P supply; (ii) the root morphological traits important for P acquisition; and (iii) the feasibility of selection among genotypes for these root morphological traits. Micro-swards of each genotype were grown with a topsoil layer that was either moderately P-deficient or had P supplied in excess of the critical requirement for maximum yield; the subsoil layer was P-deficient. Yield and P content of shoots and roots were determined after 5 weeks' growth, and root samples were assessed for diameter, length and root hair length. All genotypes were equally highly productive when excess P was supplied. However, relative shoot yield in the moderately P-deficient soil ranged from 38–71%. Total root length ranged from 63–129 m pot–1, and was correlated with total plant P uptake (R 2 = 0.78, P < 0.001). Variation was also observed in average root diameter (0.29–0.36 mm) and root hair length (0.19–0.33 mm). These traits were combined with root length to calculate the total surface area of the root hair cylinder, which was also correlated with total plant P uptake (R 2 = 0.69, P < 0.001). The results demonstrated that there was significant variation in P acquisition efficiency and shoot yield among genotypes of T. subterraneum when grown in P-deficient soil, and that root length was important for improved P uptake. The results indicate potential to identify superior genotypes that achieve improved P acquisition and higher shoot yields in low-P soil. Trifolium subterraneum L. (subterranean clover) is the most widely grown annual pasture legume in southern Australia and requires frequent applications of phosphorus (P) fertiliser to maintain high productivity. Twenty-six genotypes of this legume were grown in a P-deficient soil to assess parameters of yield, root morphology and P acquisition. The results demonstrate significant variation among genotypes for P acquisition and shoot yield in low P soil. The differences were primarily attributed to variation in nutrient-foraging root length. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
26. Differences in nutrient foraging among <italic>Trifolium subterraneum</italic> cultivars deliver improved P-acquisition efficiency.
- Author
-
Haling, Rebecca E., Brown, Lawrie K., Stefanski, Adam, Kidd, Daniel R., Ryan, Megan H., Sandral, Graeme A., George, Timothy S., Lambers, Hans, and Simpson, Richard J.
- Subjects
- *
PHOSPHORUS in soils , *PLANT morphology , *LEGUMES , *CHEMICAL composition of plants , *TOPSOIL - Abstract
Background and aims: The growth and root morphology responses to soil phosphorus (P) fertility by five cultivars of
Trifolium subterraneum (a temperate annual pasture legume) were examined to assess whether differences in root morphology and/or root acclimation to P stress influenced P-acquisition by the clover varieties, or their critical P requirements (i.e. the rate of P supply needed for maximum shoot yield).Methods: The clovers were grown as microswards in soil with P stratified in a topsoil layer to mimic growth conditions and soil P availability in a pasture. Yield and P content of shoots, and roots from the topsoil and subsoil layers was determined after 5 weeks growth in a controlled-environment cabinet. The lengths, diameters, and root hair lengths of nutrient foraging roots from the topsoil layer were quantified.Results: The shoot yield of the cultivars was similar when grown with high soil P fertility. However, the cultivars varied up to 1.5-fold in their ability to yield at low levels of soil P supply, and by 1.6-fold in their critical P requirements. All cultivars acclimated to low P soil by increasing root length density in the topsoil but those that yielded relatively well did so by maintaining a large root hair cylinder volume (i.e. they explored more soil) under low soil P conditions. This was associated with maintenance of dry matter allocations to topsoil roots and higher specific root lengths. Both factors assisted development of high root length density for nutrient foraging. Root acclimation responses to P were compared among the cultivars at equivalent relative shoot yields to assess the influence of plant P stress as a trigger for nutrient foraging. The least P-efficient cultivars slowed their allocation of dry matter to foraging roots at lower levels of P stress.Conclusions: The results suggest variation withinT. subterraneum for root proliferation and specific root length could be targeted in breeding for improved P-acquisition efficiency. [ABSTRACT FROM AUTHOR]- Published
- 2018
- Full Text
- View/download PDF
27. Intrinsic capacity for nutrient foraging predicts critical external phosphorus requirement of 12 pasture legumes.
- Author
-
Sandral, Graeme A., Haling, Rebecca E., Ryan, Megan H., Price, Andrew, Pitt, Wayne M., Hildebrand, Shane M., Fuller, Christopher G., Kidd, Daniel R., Stefanksi, Adam, Lambers, Hans, and Simpson, Richard J.
- Subjects
- *
PHOSPHORUS , *CHEMICAL composition of plants , *LEGUME varieties , *NUTRIENT uptake - Abstract
The mainstream pasture legume species such as Trifolium subterraneum, T. repens and annual Medicago spp. used in the temperate pasture systems of southern Australia have high critical external requirements for phosphorus (P) (i.e. P required to achieve 90% of maximum yield). This work aimed to identify alternative pasture legume species that could be used in systems with lower P input. Shoot and root biomass of 12 species of pasture legume was measured in response to seven rates of P applied to the top 48 mm of soil in a pot experiment. Most species had maximum yields similar to T. subterraneum, but some required only one-third of the applied P to achieve this. The critical external P requirement of the species, ranked from lowest to highest, was as follows: Ornithopus compressus = O. sativus < Biserrula pelecinus < T. michelianum = T. vesiculosum = T. glanduliferum < T. hirtum = Medicago truncatula = T. purpureum = T. incarnatum < T. spumosum = T. subterraneum. An ability to maximise soil exploration through a combination of high root-length density, high specific root length and long root hairs (i.e. a large specific root-hair-cylinder volume) was associated with a low critical external P requirement. The results indicate that Ornithopus spp. could be used to achieve productive, low P-input pasture systems. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
28. Root morphological traits that determine phosphorus-acquisition efficiency and critical external phosphorus requirement in pasture species.
- Author
-
Haling, Rebecca E., Zongjian Yang, Shadwell, Natalie, Culvenor, Richard A., Stefanski, Adam, Ryan, Megan H., Sandral, Graeme A., Kidd, Daniel R., Lambers, Hans, and Simpson, Richard J.
- Subjects
- *
PLANT root morphology , *EFFECT of phosphorus on plants , *PASTURE plants , *ACCLIMATIZATION (Plants) , *ROOT hairs (Botany) - Abstract
Annual pasture legume species can vary more than 3-fold in their critical external phosphorus (P) requirement (i.e. P required for 90% of maximum yield). In this work we investigated the link between root morphology, P acquisition and critical external P requirement among pasture species. The root morphology acclimation of five annual pasture legumes and one grass species to low soil P availability was assessed in a controlled-environment study. The critical external P requirement of the species was low (Dactylis glomerata L., Ornithopus compressus L., Ornithopus sativus Brot.), intermediate (Biserrula pelecinus L., Trifolium hirtum All.) or high (Trifolium subterraneum L.). Root hair cylinder volumes (a function of root length, root hair length and average root diameter) were estimated in order to assess soil exploration and its impact on P uptake. Most species increased soil exploration in response to rates of P supply near or below their critical external P requirement. The legumes differed in how they achieved their maximum root hair cylinder volume. The main variables were high root length density, long root hairs and/or high specific root length. However, total P uptake per unit surface area of the root hair cylinder was similar for all species at rates of P supply below critical P. Species that maximised soil exploration by root morphology acclimation were able to prolong access to P in moderately P-deficient soil. However, among the species studied, it was those with an intrinsic capacity for a high root-hair-cylinder surface area (i.e. long roots and long root hairs) that achieved the lowest critical P requirement. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
29. Effect of competition from a C4 grass on the phosphorus response of a subtropical legume.
- Author
-
Haling, Rebecca E., Campbell, Chris D., Tighe, Matthew K., and Guppy, Chris N.
- Published
- 2013
- Full Text
- View/download PDF
30. Ecological Succession, Hydrology and Carbon Acquisition of Biological Soil Crusts Measured at the Micro-Scale.
- Author
-
Tighe, Matthew, Haling, Rebecca E., Flavel, Richard J., and Young, Iain M.
- Subjects
- *
SOIL crusting , *HYDROLOGY , *RUNOFF , *TOMOGRAPHY , *SOIL permeability , *ECOHYDROLOGY - Abstract
The hydrological characteristics of biological soil crusts (BSCs) are not well understood. In particular the relationship between runoff and BSC surfaces at relatively large (>1 m²) scales is ambiguous. Further, there is a dearth of information on small scale (mm to cm) hydrological characterization of crust types which severely limits any interpretation of trends at larger scales. Site differences and broad classifications of BSCs as one soil surface type rather than into functional form exacerbate the problem. This study examines, for the first time, some hydrological characteristics and related surface variables of a range of crust types at one site and at a small scale (sub mm to mm). X-ray tomography and fine scale hydrological measurements were made on intact BSCs, followed by C and C isotopic analyses. A 'hump' shaped relationship was found between the successional stage/sensitivity to physical disturbance classification of BSCs and their hydrophobicity, and a similar but 'inverse hump' relationship exists with hydraulic conductivity. Several bivariate relationships were found between hydrological variables. Hydraulic conductivity and hydrophobicity of BSCs were closely related but this association was confounded by crust type. The surface coverage of crust and the microporosity 0.5 mm below the crust surface were closely associated irrespective of crust type. The δ 13C signatures of the BSCs were also related to hydraulic conductivity, suggesting that the hydrological characteristics of BSCs alter the chemical processes of their immediate surroundings via the physiological response (C acquisition) of the crust itself. These small scale results illustrate the wide range of hydrological properties associated with BSCs, and suggest associations between the ecological successional stage/functional form of BSCs and their ecohydrological role that needs further examination. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
31. Effect of soil acidity, soil strength and macropores on root growth and morphology of perennial grass species differing in acid-soil resistance.
- Author
-
HALING, REBECCA E., SIMPSON, RICHARD J., CULVENOR, RICHARD A., LAMBERS, HANS, and RICHARDSON, ALAN E.
- Subjects
- *
SOIL acidity , *SHEAR strength of soils , *ROOT growth , *PLANT morphology , *PERENNIALS , *GRASS varieties , *ACID soils , *SEEDLINGS - Abstract
It is unclear whether roots of acid-soil resistant plants have significant advantages, compared with acid-soil sensitive genotypes, when growing in high-strength, acid soils or in acid soils where macropores may allow the effects of soil acidity and strength to be avoided. The responses of root growth and morphology to soil acidity, soil strength and macropores by seedlings of five perennial grass genotypes differing in acid-soil resistance were determined, and the interaction of soil acidity and strength for growth and morphology of roots was investigated. Soil acidity and strength altered root length and architecture, root hair development, and deformed the root tip, especially in acid-soil sensitive genotypes. Root length was restricted to some extent by soil acidity in all genotypes, but the adverse impact of soil acidity on root growth by acid-soil resistant genotypes was greater at high levels of soil strength. Roots reacted to soil acidity when growing in macropores, but elongation through high-strength soil was improved. Soil strength can confound the effect of acidity on root growth, with the sensitivity of acid-resistant genotypes being greater in high-strength soils. This highlights the need to select for genotypes that resist both acidity and high soil strength. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
32. Effect of competition from a C4 grass on the phosphorus response of a subtropical legume
- Author
-
Haling, Rebecca E., Campbell, Chris D., Tighe, Matthew K., and Guppy, Chris N.
- Published
- 2013
- Full Text
- View/download PDF
33. Contrasting communities of arbuscule-forming root symbionts change external critical phosphorus requirements of some annual pasture legumes.
- Author
-
Jeffery, Robert P., Simpson, Richard J., Lambers, Hans, Orchard, Suzanne, Kidd, Daniel R., Haling, Rebecca E., and Ryan, Megan H.
- Subjects
- *
LEGUMES , *PLANT growth , *PHOSPHORUS in soils , *PHOSPHATE fertilizers , *VESICULAR-arbuscular mycorrhizas , *SYMBIOSIS - Abstract
Annual pasture legumes with a superior ability to acquire soil phosphorus (P) and a low external critical P requirement could reduce the need for P fertiliser. Roots of pasture legumes grown in field soil will commonly be colonised by arbuscular mycorrhizal fungi (AMF). However, recent research suggests a second community of arbuscule-forming root-colonising fungi may be present: fine root endophytes (FRE). AMF are known to enhance P acquisition by plants under certain conditions, whereas very little is known about FRE and their impact on plant P status. We, therefore, grew plants at seven levels of P supply to determine and compare the external critical P requirements of two species of Ornithopus and two cultivars of Trifolium subterraneum when colonised predominantly by FRE (FRE-dominant treatment) or both FRE and AMF (mixed treatment). As expected from previous studies, the Ornithopus species had a lower critical P requirement than the T. subterraneum cultivars. However, for the Ornithopus species only, the FRE-dominant community had a significantly lower external critical P requirement (24–31 mg P kg −1 soil) than the mixed community (50–58 mg P kg −1 soil). Moreover, at low-P supply (≤15 mg applied P kg −1 soil), Ornithopus species in the FRE-dominant treatment had longer specific root length, smaller average root diameter, 45–128% greater total root length, and lower shoot and root P concentration than in the mixed treatment. We concluded that comparisons among experiments of root morphological traits and external critical P requirements can be affected by the presence of different communities of arbuscule-forming root-colonising fungi and that these effects may vary among plant species. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
34. Mycorrhizal colonisation of cotton in soils differing in sodicity.
- Author
-
Eskandari, Samieh, Guppy, Christopher N., Knox, Oliver G.G, Backhouse, David, and Haling, Rebecca E.
- Subjects
- *
MYCORRHIZAL fungi , *COTTON growing , *AGRICULTURAL resources , *REGOLITH , *PLANT growth - Abstract
Despite the reported importance of mycorrhizal symbioses for early growth and nutrient acquisition of cotton, little is known about how sodicity affects this relationship. Changes in mycorrhizal colonisation and nutrient uptake of cotton in a range of naturally non-sodic (exchangeable sodium percentages (ESP) < 6) and low-sodic soils (ESP 6–10), from cotton production areas in southern Queensland and northern New South Wales, with different ESP (ranged between 1.4 and 9.8) was investigated in a glasshouse experiment. The experiment was a complete factorial design with 11 recently-collected soils and two mycorrhizae treatments (either inoculated with fresh “live” mycorrhizal inoculum or without inoculum). Linear mixed model analysis showed minimal effects of sodicity, when ESP was less than 10, on mycorrhizal colonisation, associated plant growth and nutrient uptake. Principle component and regression analysis showed that other sources of variation including soil pH and soil P content, rather than sodicity, might drive cotton colonisation in Vertosols with low to moderate ESP. The colonisation percentage was positively linearly correlated with P, Mg, and Zn uptake of cotton plants. Further investigation into mycorrhizal spore density and species diversity under sodic soil conditions is warranted. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
35. Mycorrhizal contribution to phosphorus nutrition of cotton in low and highly sodic soils using dual isotope labelling (32P and 33P).
- Author
-
Eskandari, Samieh, Guppy, Christopher N., Knox, Oliver G.G., Flavel, Richard J., Backhouse, David, and Haling, Rebecca E.
- Subjects
- *
MYCORRHIZAS , *PHOSPHORUS , *CHEMICAL composition of plants , *COMPOSITION of cotton , *NUTRIENT uptake , *RADIOLABELING , *PLANT-microbe relationships , *COLONIZATION (Ecology) , *SODIC soils - Abstract
Little is known about how the adverse physical and chemical environment in sodic soils affects plant-mycorrhizal relationships. We investigated mycorrhizal colonisation and plant nutrient uptake of cotton plants under highly stressed (Exchangeable Na percentage (ESP) 21) and less stressed (ESP 7) conditions with two rates of applied P. The relative hyphal contribution to P uptake was quantified using dual isotope labelling techniques ( 32 P and 33 P). Root colonisation and P uptake of mycorrhizal cotton plants reduced by 16% and 20%, respectively, in highly sodic soil as compared to plants in low sodic soil, however, the relative proportion of P delivered via hyphal pathways ( 32 P from root-free hyphal compartment) was similar. Under high P conditions, the relative increase in the proportion of 33 P (root + hyphae compartment) taken up by inoculated plants was greater in the low sodic soil relative to the high sodic soil. Mycorrhization improved early seedling vigour, and nutrient uptake. Reduced colonisation and hyphal exploration of the soil, possibly due to the physical and chemical constraints imposed by highly-sodic soil, rather than poorer mycorrhizal function, may be responsible for limited early P uptake of cotton in highly-sodic soil. [ABSTRACT FROM AUTHOR]
- Published
- 2017
- Full Text
- View/download PDF
36. High variation in the percentage of root length colonised by arbuscular mycorrhizal fungi among 139 lines representing the species subterranean clover (Trifolium subterraneum).
- Author
-
Ryan, Megan H., Kidd, Daniel R., Sandral, Graeme A., Yang, Zongjian, Lambers, Hans, Culvenor, Richard A., Stefanski, Adam, Nichols, Phillip G.H., Haling, Rebecca E., and Simpson, Richard J.
- Subjects
- *
PLANT roots , *VESICULAR-arbuscular mycorrhizas , *SUBTERRANEAN clover , *PASTURE ecology , *FOOD pasteurization - Abstract
Development of more phosphorus (P)-efficient pasture legumes could improve the P balance of pasture systems. Trifolium subterraneum (subterranean clover) is the most widely-grown annual pasture legume in southern Australia and is host to arbuscular mycorrhizal fungi (AMF). To examine the potential to alter colonisation level through breeding, 97 lines from the core collection of subterranean clover (core lines) and 42 cultivars (cultivar lines) were grown in a glasshouse in a low-P sandy acid field soil with indigenous AMF (Experiment 1). To examine the robustness of rankings, two cultivars (Riverina and Woogenellup) were also grown in 11 field soils (Experiment 2). To examine whether the presence of AMF changed other root traits important for P uptake, cultivars Riverina and Woogenellup were grown in two low-P field soils (sand, sandy loam), either pasteurised to remove indigenous AMF or unpasteurised, and with and without addition of inoculum of AMF (Experiment 3). The range of colonisation for core lines and cultivar lines was similar (∼12–68% of root length), however, the core lines had higher mean colonisation (37% vs 33%) and a greater proportion of lines with >40% of root length colonised (41% vs 24% of lines). Woogenellup was more heavily colonised than Riverina in eight soils and had a similar level of colonisation in three soils. In the sand, pasteurisation resulted in shoot DM increasing by up to 100% (possibly due to reduction in root diseases). Inoculation, in pasteurised and unpasteurised soil, resulted in an increase in shoot DM, shoot P concentration and shoot P content of ∼100%, increased average root diameter by up to 13%, decreased specific root length by up 30% and decreased root mass ratio; effects on average root hair length were variable. In the unpasteurised sandy loam, shoot P concentrations were higher than in the sand, and inoculation slightly increased shoot P concentration, but not shoot DM; the effects of inoculation on root traits were mostly small. We conclude that potential may exist to select subterranean clover for higher or lower colonisation by AMF using cultivar lines. Also, indigenous AMF may be less effective at enhancing plant P uptake and growth than inoculants. Finally, key root traits for enhancing plant P-uptake may change in the presence of AMF, but not sufficiently so to warrant deliberate inclusion or exclusion of AMF when screening germplasm for such traits. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
37. Understanding the impact of soil sodicity on mycorrhizal symbiosis: Some facts and gaps identified from cotton systems.
- Author
-
Eskandari, Samieh, Guppy, Christopher N., Knox, Oliver G.G., Backhouse, David, and Haling, Rebecca E.
- Subjects
- *
COTTON yields , *SOIL microbiology , *MYCORRHIZAL fungi , *SYMBIOSIS , *SODIC soils - Abstract
Soil sodicity degrades land and more than half of the world’s sodic soils are in Australia. Farmers in Australia produce and export cotton grown in sodic soils. Undesirable physicochemical constraints (e.g. high pH, high bulk density, low porosity and reduced oxygen content) are associated with sodic soils and may adversely affect microbial interactions in the rhizosphere, including mycorrhizal associations. This viewpoint focusses on facts and gaps in our knowledge about mycorrhizal associations in sodic soils, with special attention to cotton systems. We highlight the difference between saline and sodic soil conditions and the impacts they may have on host plant-mycorrhizae symbiosis. This viewpoint identifies the need for more research on the potential impact of sodicity on mycorrhizal species diversity, functionality and benefits to crop growth. Changes in agronomic management strategies to maximize mycorrhizal symbiosis benefits are suggested, especially for those plant species, like cotton, that are highly reliant on mycorrhizal symbiosis for optimal growth and nutrient uptake. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.