Plant growth promoting rhizobacteria and soybean nodulation, and nitrogen fixation under suboptimal root zone temperatures

Dashti, Narjes.

January 1996

Soybean (Glycine max (L.) Merr.) is a subtropical legume that requires root zone temperatures (RZTs) in the 25 to 30$ sp circ$C range for optimal symbiotic activity. The inability of soybean to adapt to cool soil conditions limits its development and yield in short season areas. In particular, nodulation and N$ sb2$ fixation by this subtropical crop species is sensitive to cool (RZT). The objectives of this thesis were to determine whether or not PGPR could be used to help overcome the low RZT inhibition of soybean nodulation, to improve soybean nitrogen fixation and yield under field conditions and to determine the methods by which such increases occurred. The work reported in this thesis has demonstrated that PGPR can increase early season nodulation and total seasonal nitrogen fixation and yield of soybean growing in an area with cool spring soils. The ability of PGPR to stimulate soybean nodulation and growth was shown to be related to their ability to colonize soybean roots, and this was shown to be related to RZT. All steps in early nodulation were stimulated by the presence of PGPR. The beneficial effects of PGPR are exerted through a diffusible molecule excreted into the growth medium. The addition of genistein, a plant-to-bacteria signal molecule already shown to stimulate soybean N$ sb2$ fixation at low RZT, plus PGPR causes increases in soybean nodulation, N$ sb2$ fixation, and growth that were greater than those caused by the addition of PGPR alone, but only at 25 and 17.5$ sp circ$C, and not at 15$ sp circ$C RZT.

Plant growth-promoting rhizobacteria.

Soybean -- Growth.

Nitrogen -- Fixation.

Soybean -- Effect of cold on.

Soybean -- Roots.

Evaluation of native rhizosphere bacteria for use as biological control agents against Pythium aphanidermatum root rot of European greenhouse cucumbers

Rankin, Lynda

January 1992

Thirty-two isolates of rhizosphere bacteria, selected for their ability to inhibit zoospore germination and/or mycelial growth of Pythium aphanidermatum (Pa) in vitro, were evaluated in a test tube bioassay using cucumber c.v. 'Straight 8'. These isolates were identified as Psedudomonas corrugata (Pc13 or 35) and P. fluorescens (Pf15, 16 or 27). All but one of the five isolates effectively colonised the roots of cucumber plants in short term studies. Isolates 15 and 35 were found to maintain high population densities throughout the time period. Pa-inoculated plants treated with the Pc13 or Pf15 produced fruit yields equal to 92 and 74% respectively of the control (no Pa, no bacteria). Pa-inoculated plants without bacteria yielded only 46% of the control. In the fall crop, Pa-inoculated plants treated with Pc13 or Pf15 yielded 52 and 47% of the control compared to Pa-only treatment, which yielded 12.5% of the control. In both crops, treatment with any of the bacterial isolates resulted in significantly reduced cull rates compared to the Pa-only treatment.

Root rots.

Plant growth-promoting rhizobacteria.

The kinetics of spear growth and asparagus productivity : control by environmental and internal factors : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Plant Science at Massey University, Palmerston North, New Zealand

Ku, Yang Gyu

January 2006

Studies on asparagus growth in relation to yield were undertaken in environmentally controlled growth cabinets and in greenhouses. Bud production during the annual growth cycle was also investigated in the field. Growth cabinet experiments showed that increasing the temperature had a significant effect on bud break and relative spear growth rate (RSGR), but although prior chilling had a significant effect on the length of time to bud break at 10°C and 15°C, the effect on RSGR was not so clear. The cytokinin-active compound, N-(2-chloro-4-pyridyl)-N'-phenylurea (CPPU), and the naturally occurring cytokinin, zeatin riboside (ZR) significantly stimulated spear elongation. However, spear leaf scale removal reduced spear elongation in the absence and presence of CPPU. CPPU only stimulated spear growth when spear leaf scales were present, indicating that other plant hormones may interact with cytokinins in promoting elongation. The importance of spear growth rate to yield was discussed. In greenhouse experiments, CPPU applied as a foliar spray at 10 or 20 mg L-1 was effective in producing longer and thicker cladodes that might be associated with increased photosynthetic rate. However, photosynthetic rate was unaffected by 10 mg L-1 CPPU treatment. Repeated CPPU applications to foliage reduced net assimilation rate (NAR) compared to untreated controls as determined by growth analysis studies. In asparagus plants, it was difficult to collect xylem sap and further experiments were undertaken with Capsicum annuum. The root exudate of CPPU-treated plants significantly decreased hypocotyl length in the lettuce gibberellin bioassay, suggesting that CPPU blocks gibberellin biosynthesis in roots. However, the application of GA3 to shoots did not reverse growth suppression caused by CPPU-treated roots. Bud production, both in growth cabinets and in open field plantings, started to occur during the spear harvest period in contrast to previously accepted views. During harvest three to four additional buds per cluster were produced in cabinet-grown plants and an average of 51 buds per m2 in field plantings. These results confirm that new bud initiation and development starts to occur during spear harvest, as well as during fern growth and establishment.

Asparagus growth

Mechanisms of regulation of developmental processes in higher plants

Gayler, K. R.

Unknown Date

No description available.

300302 Plant Growth and Development

0607 Plant Biology

Plant hormones.

Growth (Plants)

Assessing soil microbial populations and activity following the use of microbial inoculants effect on disease suppressiveness and soil health /

Cadena Cepeda, Marleny, Kloepper, Joseph.

January 2006

Thesis(M.S.)--Auburn University, 2006. / Abstract. Vita. Includes bibliographic references.

Plant growth regulators : an alternative to frequent mowing /

Johnson, Robert Jean.

January 1990

Thesis (M.S. in Management)--Naval Postgraduate School, June 1990. / Thesis Advisor(s): Carrick, Pual M. "June 1990." Description based on signature page. DTIC Identifier(s): Plant growth regulators, growth indicators. Author(s) subject terms: Plant growth regulators, growth indicators. Includes bibliographical references (p. 39-40). Also available online.

An investigation into the effects of smoke-water and GR24 on the growth of nicotiana benthamiana seedlings

Kotze, Liske Marinate

12 1900

Thesis (MSc (Plant Biotechnology))--University of Stellenboscg, 2010. / Includes bibliography. / Title page: Dept. of Genetics, Faculty of Natural Sciences. / ENGLISH ABSTRACT: Novel plant growth regulating substances (PGRs) are emerging as a useful tool to investigate important growth traits in plants. This study reports on growth promotion pathways leading to enhanced biomass accumulation in two PGRs sharing a common α, β-unsaturated furanone moiety. Growth promotion by GR24, a synthetic strigolactone, and an aqueous smoke solution (including the active compound, KAR1) in physiologically normal seedlings was characterized by enhanced biomass accumulation and higher seedling vigour. Root architecture (lateral root number and root length) and shoot size (fresh and dry shoot weight and leaf area) were also dramatically improved following GR24 and smoke/KAR1 treatment. Despite these apparent similarities, parallel transcript and phytohormone profiling identified only a limited number of overlapping entities. Four common up-regulated and nineteen down-regulated mRNA transcripts were identified; whilst amongst the phytohormones that were analyzed, only ABA and JA levels were commonly increased between the treatments. This suggests that, whilst the phenotypic end response(s) was similar, it was attained via distinct pathways. The limited number of co-expressed transcripts between these treatments, as well as repressed biomass accumulation when combining GR24 and aqueous smoke in a single treatment suggests, however, that a certain degree of cross-talk in either signal perception/transduction and/or biomass regulation could not be ruled out. In light of the structural similarity between the strigolactone and KAR1 molecules and the degree of redundancy between these treatments, it is possible that these two molecules might share a common receptor/perception pathway. Two silencing vectors were constructed, specifically aimed at silencing Nicotiana benthamiana genes MAX4 and MAX2 which are known to function in the strigolactone biosynthesis pathway and signal transduction pathway, respectively. Transgenes designed to express single- or double-stranded-self- complementary hairpin RNA have a post translational gene silencing effect. The pHELLSGATE2 plasmid a binary vector that incorporates GATEWAY cloning technology which makes use of λ-phage-based site specific recombination, rather than restriction endonucleases and ligation, was used to construct these gene silencing vectors. These constructs can in future be used to produce Nicotiana plants with impaired strigolactone production and perception abilities and may provide evidence as to whether the signaling cascade of KAR1 and strigolactone share a degree of crosstalk. / AFRIKAANSE OPSOMMING: Aanvraag na plantmateriaal is besig om toe te neem, hetsy vir gebruik as mens- en diervoeding of vir die produksie van biobrandstof. Om aan hierdie behoefte te voldoen, word verskeie pogings geloods wat fokus op die optimisering van plantproduksiestelsels. Om plantgroei te stimuleer/verbeter, is ’n ingewikkelde proses en is oor die algemeen moeilik om te begryp. Die produksie van plantbiomassa is nou gekoppel aan primêre metabolisme en enige verandering in hierdie biochemiese padweë kan lei tot ongewenste newe-effekte. Gevolglik word primêre metabolisme streng beheer deur reguleringsmeganismes. ’n Nuttige alternatief tot metaboliese wysiging is deur bio-aktiewe agente te karakteriseer op grond van die veranderinge aan plantgroei wat waargeneem word. Nuwe stowwe met biologiese aktiwiteite in plantontwikkeling word elke dag ontdek en speel ’n belangrike rol in die studie van plantgroei en -ontwikkeling. Hier word verslag gelewer van twee plantgroei-stimulerende stowwe wat albei lei tot die aktivering van verbeterde plantbiomassa-akkumulasie-padweë. Swaarder plantjies met ’n verhoogde oorlewingsvermoё is waargeneem in fisiologies normale saailinge wat met ’n sintetiese strigolaktoon (GR24) of met rookwater (met aktiewe bestanddeel, KAR1) behandel is. Behandeling met hierdie twee stowwe het gelei tot soortgelyke plantbiomassa-akkummulasie- vermoё. Hierdie twee stowwe (GR24 en KAR1) deel ’n ooreenstemmende molekulêre struktuur in die vorm van ’n α, β-onversadigde furanone-moieteit. Ten spyte van die groeiverbeteringsooreenkomste, gesien in saalinge behandel met GR24 en rook/KAR1, dui verskille in transkripsie- en hormoonprofiel op twee verskillende groeistimuleringspadweë. Saailinge wat gelyktydig behandel is met ’n kombinasie van die twee stowwe het egter ’n stremming in groei getoon in vergelyking met die kontroleplantjies. Dit is egter waargeneem dat daar wel ’n mate van oorvleueling in die aantal transkripte was tussen die drie behandelinge, wat daarop dui dat die groei-regulerende padweë nie in totale onafhanklikheid funksioneer nie, maar wel sekere stappe deel. Na aanleiding van die strukturele ooreenkomste tussen die strigolaktoon (GR24) en KAR1 molekules en die mate van molekulêre kommunikasieoorvleueling word gepostuleer dat hierdie twee molekules dalk aan dieselfde reseptormodule kan bind of stimuleer. Om hierdie rede is twee geendempingsvektors geskep wat daarop gemik is om twee gene, MAX2 en MAX4, in Nicotiana benthamiana uit te doof. Die MAX2 geenproduk is betrokke in die kommunikasie en waarneming van die strigolaktoon en die MAX4 geenproduk is betrokke by die vervaardiging van die hormoon. Oordraagbare geen-kostruksies wat daarop gemik is om enkel- en dubbelstring selfkomplimentêre haarnaald-RNS te vorm, besit die vermoë om getranskribeerde geenprodukte te vernietig. Die pHELLSGATE2 plasmied is ’n binêre vektor wat GATEWAY kloneringstegnologie gebruik, waar λ-faag gebaseerde setelspesifieke rekombinasie eerder as die tradisionele ligeringsreaksie gebruik word. Hierdie konstrukte kan gebruik word om transgeniese plantjies te skep waar die vermoë om strigolaktoon te maak of waar te neem, verloor of onderdruk is. Hierdie transgeniese plantjies kan gebruik word om te bepaal of die plantgroei-stimulerende vermoë van GR24 en rook/KAR1 wel dieselfde padweë gebruik.

Strigolactone

Smoke water

Plant growth promotion

Nicotiana benthamiana

Dissertations -- Plant biotechnology

Theses -- Plant biotechnology

Fruit split and fruit size studies on Citrus

Stander, Ockert Petrus Jacobus

03 1900

Thesis (MScAgric)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Fruit size and the integrity of the rind are key components that determine the value of a citrus fruit. The application of 2,4-dichlorophenoxy acetic acid (2,4-D) to reduce splitting, a physiological disorder which entails cracking of the rind as well as to increase fruit size was conducted on three different split-susceptible mandarin and two split-susceptible orange cultivars. Treatments were applied directly after the physiological fruit drop period, as well as in January and February at 10 mg·L-1, alone or in combination with calcium (Ca), potassium (K) or gibberellic acid (GA3). Application of 2,4-D directly after physiological fruit drop, either alone or in a tank-mix with K, consistently reduced the number of split mandarin fruit, with later applications in January and February generally being ineffective. Post physiological fruit drop application of 10 mg·L-1 2,4-D significantly increased growth rate (mm.day-1) of all the mandarin cultivars, resulting in increased fruit size. Differences in sensitivity of cultivars to 2,4-D were evident, with the January application reducing the splitting in ‘Midknight’ Valencia. However, all the 2,4-D treatments reduced the fruit growth rate of the orange cultivars. The 2,4-D treatments, in terms of splitting, increased rind thickness, -strength and -coarseness of ‘Marisol’ Clementine, throughout fruit development. In addition fruit diameter and –length increased to such an extent that the fruit shape was altered (reduced d/l-ratio), reducing the potential of the rind to crack and the fruit to split, however rind coarseness of treated fruit was also increased. There were no major negative side effects on internal and external fruit quality, except for a possible reduction in juice content (%). Therefore, 10 mg·L-1 2,4-D can be applied directly after physiological fruit drop on ‘Marisol’ Clementine and ‘Mor’ mandarin to reduce fruit splitting. / AFRIKAANSE OPSOMMING: Vruggrootte asook die integriteit van die skil is belangrike aspekte in die bepaling van ʼn sitrusvrug se waarde. Die toediening van 2,4-dichlorofenoksie asynsuur (2,4-D) om vrugsplit, 'n fisiologiese defek wat tot die kraak van die sitrusskil lei, te verminder is getoets op drie mandaryn- en twee lemoenkultivars. Hiermee saam is die potensiaal van 2,4-D om vruggrootte te verbeter ook geëvalueer. Die 2,4-D behandelings is direk na die fisiologiese vrugval periode toegedien, asook in Januarie en Februarie, teen 10 mg·L-1, alleen of in kombinasie met kalsium (Ca), kalium (K) of gibberelliensuur (GS3). Al die mandarynkultivars het ʼn vermindering in die totale aantal gesplete vrugte getoon indien die 2,4-D (enkel of in kombinasie met K) toegedien was direk na fisiologiese vrugval. Suksesvolle behandelings het ook 'n toename in vruggrootte tot gevolg gehad. Toediening van behandelings in Januarie en Februarie was oor die algemeen oneffektief. Verskille in kultivar sensitiwiteit teenoor 2,4-D is gevind, met vrugsplit in ‘Midknight’ Valencia wat verminder was deur die Januarie toediening van 2,4-D. Al die 2,4-D behandelings het vruggrootte van die lemoenkultivars verlaag. Daar is bevind dat die 10 mg.L-1 2,4-D, enkel of in kombinasie met K, ‘n toename in beide skildikte en –sterkte van ‘Marisol’ Clementine teweeg bring asook ʼn growwer skil. Behandelings met 2,4-D het vrugdeursnee en –lengte laat toeneem, wat ʼn verandering in vrugvorm tot gevolg gehad het, tot so ʼn mate dat vrugte minder geneig was om gesplete te wees. Behalwe vir ʼn moontlike verlaging in die sapinhoud (%) van vrugte, was daar geen noemenswaardige negatiewe effekte op interne en eksterne vrugkwaliteit nie. Die toediening van 10 mg.L-1 2,4-D direk na fisiologiese vrugval kan dus aanbeveel word op mandaryn kultivars wat geneig is tot vrugsplit. / The Citrus Academy

Citrus fruit -- Growth

Citrus fruit -- Quality

Plant growth regulator

Theses -- Horticulture

Dissertations -- Horticulture

Solubilização in vitro de fosfato por Torulaspora globosa / In vitro solubilization of phosphate by Torulaspora globosa

Rocha, Renata Kühl

02 May 2017

Submitted by Bruna Rodrigues (bruna92rodrigues@yahoo.com.br) on 2017-10-04T13:31:39Z No. of bitstreams: 1 DissRKR.pdf: 1036463 bytes, checksum: 2c845de1e471e5e42f4a7e8591961fc9 (MD5) / Approved for entry into archive by Ronildo Prado (producaointelectual.bco@ufscar.br) on 2017-10-10T20:14:17Z (GMT) No. of bitstreams: 1 DissRKR.pdf: 1036463 bytes, checksum: 2c845de1e471e5e42f4a7e8591961fc9 (MD5) / Approved for entry into archive by Ronildo Prado (producaointelectual.bco@ufscar.br) on 2017-10-10T20:14:25Z (GMT) No. of bitstreams: 1 DissRKR.pdf: 1036463 bytes, checksum: 2c845de1e471e5e42f4a7e8591961fc9 (MD5) / Made available in DSpace on 2017-10-10T20:21:54Z (GMT). No. of bitstreams: 1 DissRKR.pdf: 1036463 bytes, checksum: 2c845de1e471e5e42f4a7e8591961fc9 (MD5) Previous issue date: 2017-05-02 / Não recebi financiamento / Soil is an environment with great microbial diversity. Filamentous fungi and bacteria have been known for decades for the ability to stimulate plant development. Recently, studies have shown that yeasts are also capable of benefiting plants, for example, through the solubilization of inorganic phosphates. This work aims at a better understanding of the ability of rhizospheric yeasts in the solubilization of tricalcium phosphate. It also aims to study the influence of factors (pH, temperature and agitation) in the process. Initially, isolates of corn and sugarcane rhizosphere yeasts were made. The isolates were evaluated for the ability to solubilize tricalcium phosphate in solid medium BDYA. The isolate with the highest solubilization capacity was identified and evaluated for the solubilization capacity of tricalcium phosphate in NBRIP liquid medium at different temperature levels (20, 25 and 30 ° C), initial pH (3, 5 and 7) and agitation (0, 100, 150 and 200 rpm). Solubilization evaluations were also performed at 24-hour intervals, ranging from 1 to 7 days. Six isolates were obtained. All presented a positive result for solubilization. The yeast 6S01 (Torulaspora globosa) had the highest solubilization capacity. After five days, T. globosa solubilized 26 to 35% of the total phosphorus in the NBRIP culture medium. There was no significant difference for any of the environmental parameters tested. Assays performed in periods of 1 to 7 days showed that the yeast solubilized a maximum amount of phosphorus in 48 hours (42%). This makes it interesting for industrial and agricultural applications, since it has a fast solubilization process and can be used in a wide range of conditions. It was possible to understand that a higher cell growth is not related to the efficiency in the solubilization, and that acidification of the medium may be one of the main mechanisms used by yeast in the in vitro solubilization of tricalcium phosphate. / O solo é um ambiente com grande diversidade microbiana. Fungos filamentosos e bactérias são conhecidos há décadas pela capacidade de estimular o desenvolvimento vegetal. Recentemente, trabalhos mostram que leveduras também são capazes de beneficiar plantas, por exemplo, através da solubilização de fosfatos inorgânicos. Esse trabalho visa um maior entendimento da capacidade de leveduras rizosféricas na solubilização de fosfato tricálcico. Também visa o estudo da influência de fatores (pH, temperatura e agitação) no processo. Inicialmente, foi feito um isolamento de leveduras de rizosfera de milho e cana-de-açúcar. Os isolados foram avaliados quanto à capacidade de solubilizar fosfato tricálcico em meio sólido BDYA. O isolado com maior capacidade de solubilização foi identificado e avaliado quanto à capacidade de solubilização de fosfato tricálcico em meio líquido NBRIP, em diferentes níveis de temperatura (20, 25 e 30°C), pH inicial (3, 5 e 7) e agitação (0, 100, 150 e 200 rpm). Também foram feitas avaliações da solubilização em intervalos de 24 horas, de 1 a 7 dias. Foram obtidos seis isolados. Todos apresentaram resultado positivo para solubilização. A levedura 6S01 (Torulaspora globosa) apresentou a maior capacidade de solubilização. Após cinco dias, T. globosa solubilizou 26 a 35% do fósforo total no meio de cultura NBRIP. Não houve diferença significativa para nenhum dos parâmetros ambientais testados. Ensaios realizados em períodos de 1 a 7 dias mostraram que a levedura solubilizou uma quantidade máxima de fósforo em 48 horas (42%). Isso a torna interessante para aplicações industriais e agrícolas, visto que possui rapidez no processo de solubilização e pode ser empregada numa ampla faixa de condições. Foi possível compreender que um maior crescimento celular não está relacionado à eficiência na solubilização, e que a acidificação do meio pode ser um dos principais mecanismos utilizados pela levedura na solubilização in vitro do fosfato tricálcico.

Solubilização de fosfato in vitro

Promoção de crescimento vegetal

Torulaspora globosa

Phosphate solubilization in vitro

Plant growth promotion

CIENCIAS AGRARIAS

The potential for root trait selection to enhance soil carbon storage and sustainable nutrient supply

Mwafulirwa, Lumbani

January 2017

Plant roots are central to C- and N-cycling in soil. However, (i) plants differ strongly in tissue recalcitrance (e.g. lignin content) affecting their mineralization in soil, and (ii) rhizodeposits also vary strongly in terms of the metabolites that they contain. Therefore, (i) we used 13C labelled ryegrass root and shoot residues as substrates to investigate the impact of tissue recalcitrance on soil processes through controlled incubation of soil, (ii) we assessed variations in root C-deposition between barley genotypes and their respective impacts on soil processes using 13CO2 labelled plants, (iii) using 13C/15N enriched ryegrass root residues as tracer material, we investigated the impacts of barley genotypes on mineralization of recently incorporated plant residues in soil and plant uptake of the residue-derived N, and (iv) we applied a quantitative trait loci analysis approach to identify barley chromosome regions affecting soil microbial biomass and other soil and root related traits. In the first study, addition of root residues resulted in reduced C-mineralization rates, soil microbial activity and soil organic matter (SOM) priming relative to shoot residues. Planted experiments revealed (i) genotype effects on plant-, SOM- and residuederived surface soil CO2-C efflux and showed that incorporation of plant derived-C to the silt-and-clay soil fraction varied between genotypes, indicating relative stabilization of root derived-C as a result of barley genotype, (ii) that plant uptake of residue released N between genotypes was linked to genotype impacts on residue mineralization, and (iii) barley chromosome regions that influence plant-derived microbial biomass C. These results (i) suggest that greater plant tissue recalcitrance can lower soil C-emissions and increase C-storage in soil, and (ii) demonstrate the barley genetic influence on soil microbial communities and C- and N-cycling, which could be useful in crop breeding to improve soil microbial interactions, and thus promote sustainable crop production systems.

631.4