Your search keyword '"Gross C"' showing total 7 results

1. Somatic mutations contribute to genotypic diversity in sterile and fertile populations of the threatened shrub, Grevillea rhizomatosa (Proteaceae).

Author

Gross, C. L., Nelson, Penelope A., Haddadchi, Azadeh, and Fatemi, Mohammad

Subjects

*SHRUBS, *SOMATIC mutation, *PLANT self-incompatibility, *STERILITY in plants, *PLANT breeding, *GREVILLEA

Abstract

Background and Aims Grevillea rhizomatosa is a spreading shrub which exhibits multiple breeding strategies within a narrow area in the fire-prone heathlands of eastern Australia. Reproductive strategies include self-compatibility, self-incompatibility and clonality (with and without sterility). The close proximity of contrasting breeding systems provides an opportunity to explore the evolution of sterility and to compare and contrast the origins of genotypic diversity (recombinant or somatic) against degrees of sexual expression. Methods ISSR markers for 120 band positions (putative loci) were used to compare genetic diversity among five populations at a macro-scale of 5 m between samples (n = 244 shrubs), and at a micro-scale of nearest neighbours for all plants in five 25-m2 quadrats with contrasting fertilities (n = 162 shrubs). Nearest-neighbour sampling included several clusters of connected ramets. Matrix incompatibility (MIC) analyses were used to evaluate the relative contribution of recombination and somatic mutation to genotype diversity. Key Results High levels of genotypic diversity were found in all populations regardless of fertilities (fertile populations, G/N ≥ 0·94; sterile populations, G/N ≥ 0·97) and most sterile populations had a unique genetic profile. Somatic mutations were detected along connected ramets in ten out of 42 ramet clusters. MIC analyses showed that somatic mutations have contributed to diversity in all populations and particularly so in sterile populations. Conclusions Somatic mutations contribute significantly to gene diversity in sterile populations of Grevillea rhizomatosa, the accumulation of which is the likely cause of male and female sterility. High levels of genetic diversity therefore may not always be synonymous with sexual fitness and genetic health. We hypothesize that frequent fires drive selection for clonal reproduction, at the cost of flowering such that sexual functions are not maintained through selection, and the build-up of somatic mutations in meristems results in high genotype diversity at the cost of pollen and ovule fertilities. [ABSTRACT FROM AUTHOR]

Published

2012

2. Honeybees facilitate the invasion of Phyla canescens (Verbenaceae) in Australia – no bees, no seed!

Author

GROSS, C. L., GORRELL, L., MACDONALD, M. J., and FATEMI, M.

Subjects

*HONEYBEES, *PHYLA canescens, *POLLINATION by bees, *WEED control, *SELF-pollination

Abstract

Gross CL, Gorrell L, MacDonald MJ & Fatemi M (2010). Honeybees facilitate the invasion of Phyla canescens (Verbenaceae) in Australia – no bees, no seed! Weed Research 50, 364–372. Several environmental weeds rely on the pollination services of introduced bees. The transfer of this knowledge to weed control management has not been fully explored. In part, this may be because it is difficult to quantify the economic impact of environmental weeds. This diminishes the prospects for expensive research and development required for integrated weed management. In this study, we examine the reproductive ecology of Phyla canescens, a species native to South America that is an aggressive agricultural and environmental weed in many parts of the world. We found that P. canescens is self-compatible, but not capable of automatic self-pollination. A vector is required to effect seed set. Field studies showed that 45% of seeds produced through open pollination are viable. Using exclosure cages, we showed that non-native Apis mellifera L. (honeybee) was the primary floral visitor and pollinator. Honeybee abundance was positively correlated with P. canescens abundance. Within the study site of 0.51 ha, almost 500 000 seeds ha−1 would be produced annually, as a result of honeybee pollination. This study shows that a shared evolutionary history is not required for honeybees to be successful pollinators. Facilitation is demonstrated through the obligate need for pollinators and the successful recruitment of the species through seed. Models for the control of feral honeybees in agricultural systems require development. [ABSTRACT FROM AUTHOR]

Published

2010

3. A COMPARISON OF THE SEXUAL SYSTEMS IN THE TREES FROM THE AUSTRALIAN TROPICS WITH OTHER TROPICAL BIOMES—MORE MONOECY BUT WHY?

Author

Gross, C. L.

Subjects

*REFORESTATION, *BIOTIC communities, *ANGIOSPERMS, *RAIN forests, *DROUGHTS, *MULTIPURPOSE trees, *POLLINATORS

Abstract

Rainforests in tropical Australia occupy a very small, discontinuous area (<1% of the continent), yet they are floristically diverse (c. 2800 vascular species) with high endemicity. There is a distinctive Gondwanan and autochthonous element, and some of the world's ancestral links to the basal angiosperms are uniquely found here. Tile rainforests can be evergreen or deciduous, but there is a distinct dry season with intermittent drought years. With these characters, the evolutionary pressures on species may be very different to that experienced elsewhere. Sexual systems of 1113 tree species (83 families) from northern Australia were compared with published accounts from the paleo- and neotropics. Hermaphroditic systems dominated all tree floras, and within all floras but Australia dioecy was the most common unisexual system. In tropical Australia, however, significantly more monoecy than dioecy occurred at landscape and community levels. Incorporating phylogeny revealed that sex and fruit types are significantly clustered. The Euphorbiaceae and Sapindaceae contributed c. 50% of the monoecious taxa. Inefficient pollinators (e.g., beetles) may have favored the maintenance of monoecy at the expense of dioecy in the Australian tropics although <1% of the flora has been studied for pollinators and none of the monoecious tree species. [ABSTRACT FROM AUTHOR]

Published

2005

4. Prolonged summer flooding switched dominance from the invasive weed Lippia ( Phyla canescens) to native species in one small, ephemeral wetland.

Author

Price, Jodi, Gross, C. L., and Whalley, Wal

Subjects

*PHYLA canescens, *WEEDS, *PLANT growth, *WETLANDS, *MARSHES

Abstract

The article summarizes a study of Jodi Price and colleagues related to the effects of prolonged summer flooding on the weeds of Gwydir Wetlands, New South Wales. The result of the study indicates that the prolonged summer flooding of 1990s, declined the growth of the invasive weed Lippia (Phyla canescens) whereas increased growth was seen in native species, Tall spike-rush. The authors also observed that a winter flood in the Macquarie Marshes did not result in the expansion of Lippia cover.

Published

2010

5. AusTraits, a curated plant trait database for the Australian flora.

Author

Falster D, Gallagher R, Wenk EH, Wright IJ, Indiarto D, Andrew SC, Baxter C, Lawson J, Allen S, Fuchs A, Monro A, Kar F, Adams MA, Ahrens CW, Alfonzetti M, Angevin T, Apgaua DMG, Arndt S, Atkin OK, Atkinson J, Auld T, Baker A, von Balthazar M, Bean A, Blackman CJ, Bloomfield K, Bowman DMJS, Bragg J, Brodribb TJ, Buckton G, Burrows G, Caldwell E, Camac J, Carpenter R, Catford JA, Cawthray GR, Cernusak LA, Chandler G, Chapman AR, Cheal D, Cheesman AW, Chen SC, Choat B, Clinton B, Clode PL, Coleman H, Cornwell WK, Cosgrove M, Crisp M, Cross E, Crous KY, Cunningham S, Curran T, Curtis E, Daws MI, DeGabriel JL, Denton MD, Dong N, Du P, Duan H, Duncan DH, Duncan RP, Duretto M, Dwyer JM, Edwards C, Esperon-Rodriguez M, Evans JR, Everingham SE, Farrell C, Firn J, Fonseca CR, French BJ, Frood D, Funk JL, Geange SR, Ghannoum O, Gleason SM, Gosper CR, Gray E, Groom PK, Grootemaat S, Gross C, Guerin G, Guja L, Hahs AK, Harrison MT, Hayes PE, Henery M, Hochuli D, Howell J, Huang G, Hughes L, Huisman J, Ilic J, Jagdish A, Jin D, Jordan G, Jurado E, Kanowski J, Kasel S, Kellermann J, Kenny B, Kohout M, Kooyman RM, Kotowska MM, Lai HR, Laliberté E, Lambers H, Lamont BB, Lanfear R, van Langevelde F, Laughlin DC, Laugier-Kitchener BA, Laurance S, Lehmann CER, Leigh A, Leishman MR, Lenz T, Lepschi B, Lewis JD, Lim F, Liu U, Lord J, Lusk CH, Macinnis-Ng C, McPherson H, Magallón S, Manea A, López-Martinez A, Mayfield M, McCarthy JK, Meers T, van der Merwe M, Metcalfe DJ, Milberg P, Mokany K, Moles AT, Moore BD, Moore N, Morgan JW, Morris W, Muir A, Munroe S, Nicholson Á, Nicolle D, Nicotra AB, Niinemets Ü, North T, O'Reilly-Nugent A, O'Sullivan OS, Oberle B, Onoda Y, Ooi MKJ, Osborne CP, Paczkowska G, Pekin B, Guilherme Pereira C, Pickering C, Pickup M, Pollock LJ, Poot P, Powell JR, Power SA, Prentice IC, Prior L, Prober SM, Read J, Reynolds V, Richards AE, Richardson B, Roderick ML, Rosell JA, Rossetto M, Rye B, Rymer PD, Sams MA, Sanson G, Sauquet H, Schmidt S, Schönenberger J, Schulze ED, Sendall K, Sinclair S, Smith B, Smith R, Soper F, Sparrow B, Standish RJ, Staples TL, Stephens R, Szota C, Taseski G, Tasker E, Thomas F, Tissue DT, Tjoelker MG, Tng DYP, de Tombeur F, Tomlinson K, Turner NC, Veneklaas EJ, Venn S, Vesk P, Vlasveld C, Vorontsova MS, Warren CA, Warwick N, Weerasinghe LK, Wells J, Westoby M, White M, Williams NSG, Wills J, Wilson PG, Yates C, Zanne AE, Zemunik G, and Ziemińska K

Subjects

Australia, Plant Physiological Phenomena, Databases, Factual, Phenotype, Plants

Abstract

We introduce the AusTraits database - a compilation of values of plant traits for taxa in the Australian flora (hereafter AusTraits). AusTraits synthesises data on 448 traits across 28,640 taxa from field campaigns, published literature, taxonomic monographs, and individual taxon descriptions. Traits vary in scope from physiological measures of performance (e.g. photosynthetic gas exchange, water-use efficiency) to morphological attributes (e.g. leaf area, seed mass, plant height) which link to aspects of ecological variation. AusTraits contains curated and harmonised individual- and species-level measurements coupled to, where available, contextual information on site properties and experimental conditions. This article provides information on version 3.0.2 of AusTraits which contains data for 997,808 trait-by-taxon combinations. We envision AusTraits as an ongoing collaborative initiative for easily archiving and sharing trait data, which also provides a template for other national or regional initiatives globally to fill persistent gaps in trait knowledge., (© 2021. The Author(s).)

Published

2021

6. Two decades of demography reveals that seed and seedling transitions limit population persistence in a translocated shrub.

Author

Gross CL and Mackay D

Subjects

Asteraceae physiology, Australia, Demography, Ecosystem, Endangered Species, Extinction, Biological, Germination, Models, Biological, Seedlings physiology, Seeds physiology, Time Factors, Asteraceae growth & development, Seedlings growth & development, Seeds growth & development

Abstract

Background and Aims: Olearia flocktoniae is an endangered shrub that was passively translocated from its natural ecosystem, where it has since gone extinct. This study aimed to determine sensitivities vital to populations persisting in human-created areas., Methods: Population colonization, longevity and extinction were investigated over 20 years using 133 populations. Seed-bank longevity was determined from germination trials of seeds exhumed from extinct and extant sites via a 10-year glasshouse trial and by in situ sowing experiments. From 27 populations, 98 cohorts were followed and matrix models of transitions from seeds to adults were used to evaluate the intrinsic rate of population growth against disturbance histories. Ten populations (38 cohorts) with different disturbance histories were used to evaluate sensitivities in vital rates., Key Results: Most populations had few individuals (∼30) and were transient (<5 years above ground). The intrinsic population growth rate was rarely >1 and all but two populations were extinct at year 20. Seeds were short-lived in situ. Although >1000 seeds per plant were produced annually in most populations, sensitivity analysis showed that the transition to the seed bank and the transition from the seed bank to seedlings are key vulnerabilities in the life-cycle., Conclusions: Seedling establishment is promoted by recent disturbance. Increasing the number of disturbance events in populations, even severe disturbances that almost extirpate populations, significantly increases longer-term population persistence. Only populations that were disturbed annually survived the full 20 years of the study. The results show that translocated populations of O. flocktoniae will fail to persist without active management., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company.)

Published

2014

7. Broom and honeybees in Australia: an alien liaison.

Author

Simpson SR, Gross CL, and Silberbauer LX

Subjects

Animals, Australia, Reproduction, Bees physiology, Cytisus physiology, Seeds physiology

Abstract

Facilitative interactions between non-indigenous species are gaining recognition as a major driver of invasion success. Cytisus scoparius (L.) Link (Fabaceae), or Scotch broom, is a cosmopolitan invasive shrub that lacks the capacity for vegetative reproduction and is a good model to study facilitative interactions. Its success in pioneer environments is determined by constraints on its reproduction. We determined whether pollinators were required for seed set in C. scoparius at Barrington Tops, NSW, Australia, where the species has infested ca. 14,000 ha across the plateau. Field and laboratory experiments showed that C. scoparius is an obligate outcrossing species at Barrington Tops. Monitoring of plants (10.7 h) showed that the flowers of C. scoparius have to be tripped to effect seed set and the only pollinator to do this was the introduced honeybee, Apis mellifera L. Most floral visits by honeybees result in fruit set (84 %) and because fruits have many ovules (10 - 18 per ovary) a single bee on an average foraging day can effect the production of over 6000 seeds. A review of C. scoparius pollination across four continents revealed major differences in pollen quantity, which may explain differences in the efficiencies of honeybees as pollinators of C. scoparius. The incorporation of pollinator management in an integrated approach for the control of C. scoparius is discussed.

Published

2005