Spelling suggestions: "subject:"roots (botany)"" "subject:"roots (motany)""
131 |
Root growth potential and outplanting performance of loblolly pine seedlings raised at two nurseriesBarden, Charles J. January 1987 (has links)
Root growth potential CRGP) is the measure of seedling ability to grow new roots. Loblolly pine (Pinus taeda L.) seedlings from 5 seedlots were raised at two widely separated nurseries (Summerville, SC and New Kent, VA). In Experiment I, RGP was determined during the fall and winter of 1984-85 and 1985-86, and several morphological traits were measured. In Experiment II seedlings from the same seedlots were lifted during February 1985 and 1986 at both nurseries, and cold stored until subsequent outplanting; subsamples of outplanted seedlings were used for RGP determinations.
Root growth potential varied significantly by family, nursery, and lift date, and first order interactions were significant. Generally, the RGP of Summerville raised seedlings was higher than that of New Kent raised seedlings. RGP was not strongly correlated with common measures of shoot morphology, but RGP was consistently well correlated with lateral root dry weight.
In Experiment II, RGP varied significantly by family, nursery, and storage duration. The family x nursery effect was the only significant interaction. Summerville raised seedlings had higher RGP on each planting date. During each year RGP declined rapidly in storage. First year survival was significantly correlated with RGP (r = .52, p < .001). Height increment and RGP were also strongly correlated (r = .80, p < .001). These relationships and their implications for nursery management were discussed. / M.S.
|
132 |
Soil-plant root relationships of herbaceous biomass crops grown on the Piedmont of VirginiaHall, David Shane 18 August 2009 (has links)
The interactions between soil physical properties, particularly soil structure and bulk density, and the rooting of four herbaceous crops grown for biomass on three common Piedmont soil series were examined. The effect of these crops on soil properties over time was also studied. The rooting of the biomass crops studied seemed to be affected by soil physical factors on two of the three soils. Even though bulk density on all three soils (Appling, Cecil, and Davidson) appeared high enough to drastically limit rooting, such limitations were found only at the Appling sites and, to a much lesser extent, at the Cecil sites. Well-developed soil structure seemed to be instrumental in the success of the biomass crops on these dense Piedmont soils. All of the species studied had vigorous root systems in well-structured, high-density soils. Weeping lovegrass (<i>Erogrostis cuxvula</i>) was particularly insensitive to high bulk densities. The root systems of switchgrass (<i>Panicum virgatum</i>), birdsfoot trefoil (<i>Lotus corniculatus</i>), and sericea lespedeza (<i>Lespedeza cuneata</i>) were all heavily influenced by the high densities of the nearly structureless Appling soils; but lovegrass roots were quite prolific there. For this reason lovegrass should be considered first for biomass production on similar marginal soils. All soils had higher organic matter contents after four years of biomass production. Soil nutrient concentrations, particularly soil K, were also higher, especially under switchgrass. Soil Ca and Mg contents were higher under the two legumes than under the two grasses. / Master of Science
|
133 |
Effects of soil compaction on root distribution of transplant tomatoesFogleman, Max Earl. January 1962 (has links)
Call number: LD2668 .T4 1962 F64
|
134 |
The influence of root chilling on the hydraulic characteristics of selected Eucalyptus taxa.January 2008 (has links)
The hydraulic conductance of a plant is a significant factor in determining the / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2008.
|
135 |
Rooting techniques for selected tree speciesLaubscher, Charles Petrus January 1999 (has links)
Thesis (MTech (Horticulture))--Cape Technikon, Cape Town, 1999 / Vegetative propagation techniques for rooting of cuttings of indigenous tree species, i.e.
Olea europaea subsp. African, Podocarpus falcatus, Syzigium cordatum and introduced
species, i.e. Acacia mearnsii, A. melanoxylon, Eucalyptus grandis and Melia azedarach
were studied and improved at the Cape Technikon nursery from May 1994 to June 1998.
These tree species are considered problematic since the indigenous species produce
unwanted fruits in urban areas which attract frugivores, while the introduced species are a
threat to indigenous vegetation and natural habitats, though they are of great commercial
value.
The progress in mutation breeding of sexual sterility in most of the problematic species
created a need to propagate them vegetatively. Without cloning of seedless species, their
beauty and economic value to South Africa will be lost, as the indigenous species will be
neglected, while invasive species will continue to threaten the natural habitat of indigenous
species.
Experiments were conducted to test age, type and length of cuttings, environmental factors,
growth season, hormone application, various treatments and rooting media for each of
these species. This study showed that relatively few publications relevant to the vegetative
propagation of indigenous tree species are available. However, some introduced species,
e.g. Eucalyptus grandis, are propagated successfully for commercial forestry purposes.
Ficus sur and Syzicium cordatum showed the highest rooting success, i.e. 85-90%,
followed by Olea europaea subsp. africana (75-80%), and Podocarpus falcatus (60%). The
introduced species showed no rooting success, however, callusing in Eucalyptus grandis
(35-61%), and Melia azedarach (50%), and survival rates in Acacia mearnsii (10%) and A.
melanoxylon (20%) were achieved. Treatments, i.e. etiolation, placing plants under stress,
sealing basal stems of cuttings, and fungicide treatments all showed positive results in
promoting callusing success. The study showed that rooting success in individual species
are directly related to the growth stage of parent plants as well as the season during which
the cuttings were taken.
With progress towards successful vegetative propagation of sterile problem plant species,
propagators and horticulturists can in future apply these improved techniques. These
plants will then continue to supply timber, fire wood and improve aesthetics in the South
African urban environment.
|
136 |
Influence of plexiglass inserts on prevention of root spiraling of container grown tree speciesAgnew, Michael Lewis January 2011 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
|
137 |
Structure of root associated and soil fungal and bacterial communities in Southeast Asia tropical forestMustafa Bakray, Nur Aqilah Binti January 2018 (has links)
The tropical rainforest has interested ecologists for hundreds of years because of its vast species diversity. The distribution and establishment of trees is related to soil properties and rootassociated microorganisms. The coexistence of hyper-diverse plant communities in tropical rainforests has resulted in associations being formed with belowground communities, mycorrhizas (particularly arbuscular mycorrhizal (AM), ectomycorrhizas (ECM)) and root associated bacterial communities. The rapid deforestation in Southeast Asia is causing the loss of the dominant and important tree species belonging to the family Dipterocarpaceae. It is important to understand whether different host species in the same environment maintain mycorrhizal and bacterial diversity, especially mycorrhizas with a restricted host range. In this study, I examine the ecology of mycorrhizas and bacteria associated with Dipterocarpaceae and also the plant community as a whole. The aim of this project is to understand the effect of host properties (e.g. species, size), soil factors (e.g. nutrient concentrations) and spatial factors on mycorrhizal fungi and bacterial diversity and community structure. The research took place in two Centre for Tropical Forest Science (CTFS) plots in Malaysia: Pasoh Forest Reserve (in Negeri Sembilan) and Danum Valley Conservation Area (in Sabah). Molecular protocols and a modern technique, Next Generation Sequencing (NGS), were adopted to quantify mycorrhizal and bacterial loads in tropical plants. ITS1 and ITS2 regions were used for ECM, 18S rRNA were used for AM, and 16S rRNA were used for bacteria. Mycorrhizas and bacteria present in the roots of Dipterocarpaceae from 60 individual plants belonged to 25 species within 6 genera were traced and sampled in 2015. To my knowledge, this study is the first attempt to study root-associated bacteria across multiple species within a single family, Dipterocarpaceae. Dipterocarpaceae's species was found to significantly influence root bacteria. Analyses showed that mycorrhizal communities are similar on the host, unlike the null model. Dipterocarpaceae was previously believed to solely host ECM, but this study disproves this. This study shows that Dipterocarpaceae can have dual colonization, as it iv can also associate with AM fungi. One soil core of 10 cm × 10 cm × 7.5 cm were collect randomly in three subplot and further divided at 2.5 cm each slice into 75 individual 'microcubes' of 2 cm × 2 cm × 2.5 cm depths enumerates a total of 192 fine root samples. Multivariate analysis revealed that AM fungi tend to associate with non-dipterocarp (as well as unidentified families) while ECM fungi tend to associate with dipterocarps. Data was also collected on host attributes, plant size, and root density. Dipterocarpaceae size does not influence the distribution of mycorrhizal or bacterial communities. The root density reduces as depth increases. Therefore, root density does have a significant influence on mycorrhizal community structure. The diversity of ECM and AM fungal communities within cubes decreased significantly with depth (p < 0.001), whereas the mycorrhizal communities did not change across horizontal distances within cubes. To investigate whether there is a relationship between belowground communities and soil properties, soil macro and micro nutrients were examined and a multivariate analysis was performed. The results showed that communities of belowground (mycorrhizal and bacterial) species correlate with soil parameters. Spatial scale also had an effect on community assembly, independent of environmental variation. These results demonstrate that mycorrhizal fungal communities can vary substantially over very fine spatial scales, and that the distribution of roots from different species do not reflect their proximity aboveground. This study clearly demonstrates the widespread presence of mycorrhizal fungi and root associated bacteria in tropical rainforest plants.
|
138 |
Shoot Structure of Boschniakia hookeri Walpers (Orobanchaceae)Babur, John Leland 18 August 1995 (has links)
Boschniakia hookeri Walpers has been found to parasitize the roots of Gaultheria shallon Pursh, Arctostaphylos uva-ursi (l.) Spreng, and Vaccinium ovatum Pursh, all members of the Ericaceae. This is the first documented report of the parasitism of Vaccinium ovatum. The subterranean shoot of B. hookeri originates endogenously from the perennial tubercle of the parasite. The shoot has an eustele, composed of collateral vascular bundles, arranged in four composite fronts and separated by four wide 'leaf gaps.' Pits on metaHylem vessels range from nearly circular to laterally elongated. Rll vessel members have simple perforations. Ouerall, the Hylem of subterranean shoots contained relatively few tracheary elements. Phloem is abundant, with radial series of sieve tube members that have simple sieve plates. Brachysclereids forming large clusters are positioned to both the inside and outside of the vascular bundles. Abundant stomata are present and frequently raised above the shoot surface. RHillary buds along subterranean shoots are capable of producing flowers or branch shoots. Considerable secondary growth occurs in maintained shoots below developing branch shoots. This manifested by the additional production of secondary Hylem and phloem, and the formation of a protective cuticular epithelium. This study of B. hookeri supports the view that the short and fleshy character of the subterranean shoot, increased presence of phloem, reduction of leaves to scales, and a perennial nature are specializations associated with the holoparasitic mode of life.
|
139 |
The GIST model for selection and modification of scientific research for the college teaching laboratory based on root competition investigationsElliott, Shannon Snyder. January 2007 (has links)
Thesis (Ed.D.)--University of West Florida, 2007. / Title from title page of source document. Document formatted into pages; contains 252 pages. Includes bibliographical references.
|
140 |
Cell production, expansion and the role of auxin in the response of the root of Arabidopsis thaliana exposed to water deficit /Van der Weele, Cornelia Maria, January 2001 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 2001. / Typescript. Vita. Includes bibliographical references. Also available on the Internet.
|
Page generated in 0.0493 seconds