Biomass production of five populus clones, soil carbon and soil water content in a central Missouri floodplain

Dowell, Ryan.

January 2006

Thesis (M.S.)--University of Missouri-Columbia, 2006. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file viewed on (February 7, 2007) Includes bibliographical references.

Penman-Monteith surface resistance for hybrid poplar trees

Butler, Dana Anthony

21 April 2000

The application of the widely used Penrnan-Monteith evapotranspiration equation to hybrid poplar trees is impossible without a valid surface resistance. The increase in applications of drip-irrigated hybrid poplar trees for wood chip stock and veneer production, as well as bioremediation, constitutes a need for estimating the evapotranspiration of these trees. To the author's knowledge, there are no published estimates of surface resistance for poplar trees. Six years of weekly soil moisture content for drip-irrigated, hybrid poplar trees were used in a water balance to compute evapotranspiration. The weekly data were adjusted with reference evapotranspiration data to compute a daily evapotranspiration. Only data that represent fully leaved hybrid poplars are used in this study and the data were screened for the effects of drainage. Additional parameters applied in this study include solar radiation, temperature, wind speed and relative humidity taken at a nearby AGRIMET Weather Station. The results of this study indicate that surface resistance values cannot be described as a function of meteorological data within the constraints of the current experiment design. The graph of poplar evapotranspiration versus surface resistance shows that for a given evapotranspiration there can be multiple rs values. This scatter is the influence of parameters other than rs within the Penman-Monteith model. The use of an instrument to directly measure the surface resistance is recommended in further studies. / Graduation date: 2000

Poplar -- Moisture -- Measurement

Evapotranspiration -- Measurement

Nutrient cycling in hybrid poplar stands in Saskatchewan : implications for long-term productivity

Steckler, Michael Kenneth

16 May 2007

Intensive management of short rotation hybrid poplar (HP) plantations on agriculture land has demonstrated good early yields and promise as an alternative crop for farmers selling fibre to the forest industry. However, multiple rotations of HP may impact the future productivity of plantations through nutrient removals. The objectives, therefore, of this study were to determine the nutrient stores and fluxes for two HP plantations with differing site quality, fertilizer applications and past land management practices and to construct a 20-year nutrient budget to examine impacts of harvesting short rotation HP on long-term productivity.<p>Heights and biomass were measured by harvesting above- and below-ground and separating biomass into tree components; measurement of atmospheric deposition, mineral weathering, litterfall, litter decomposition, and leaching for HP plantations on an Alfalfa (HPA) and Pasture (HPP) sites in 2004-05. The budget was developed by averaging fluxes over 2 years and scaling up to a 20-year rotation. <p>Unfertilized treatments in the HPA plantation showed greater tree growth than all other treatments. Fertilized and unfertilized treatments had greater biomass production and nutrient pools than treatments at the HPP plantation. The fertilizer treatments did not affect on biomass production and nutrient accumulation.<p>Nutrient additions to the HPA were greater than the HPP plantations for leaf litterfall and leaching. Nutrient resorption from senescing leaves was greater at the HPP plantation suggesting that nutrient pools were smaller and that trees responded by keeping nutrients in the biomass. Fertilization at both plantations increased nutrient flow for inputs and outputs in 2004-05. Water leachate and leaf litterfall showed increased nutrient contents in fertilized treatments at both plantations.<p>A high fertility plantation that used fertilizer and practiced whole-tree harvesting exported more nutrients (and fibre) than a plantation with marginal site quality practicing stem-only harvesting. Time to replenish nutrients from atmospheric deposition and mineral weathering would range from 6 to 50 years for Ca and N, respectively, suggesting that subsequent plantations would require fertilizers to replenish soil nutrient reserves.<p>While HP plantations in Saskatchewan can produce high yields, they require large nutrient inputs and are inefficient (sequester a large amount) in nutrient use. High site quality is important to obtain high yields but conservational techniques, such as stem-only harvesting, are important in maintaining site quality over the long-term.

Long-term productivity

Hybrid poplar

Nutrient cycling in hybrid poplar stands in Saskatchewan : implications for long-term productivity

Steckler, Michael Kenneth

16 May 2007

Intensive management of short rotation hybrid poplar (HP) plantations on agriculture land has demonstrated good early yields and promise as an alternative crop for farmers selling fibre to the forest industry. However, multiple rotations of HP may impact the future productivity of plantations through nutrient removals. The objectives, therefore, of this study were to determine the nutrient stores and fluxes for two HP plantations with differing site quality, fertilizer applications and past land management practices and to construct a 20-year nutrient budget to examine impacts of harvesting short rotation HP on long-term productivity.<p>Heights and biomass were measured by harvesting above- and below-ground and separating biomass into tree components; measurement of atmospheric deposition, mineral weathering, litterfall, litter decomposition, and leaching for HP plantations on an Alfalfa (HPA) and Pasture (HPP) sites in 2004-05. The budget was developed by averaging fluxes over 2 years and scaling up to a 20-year rotation. <p>Unfertilized treatments in the HPA plantation showed greater tree growth than all other treatments. Fertilized and unfertilized treatments had greater biomass production and nutrient pools than treatments at the HPP plantation. The fertilizer treatments did not affect on biomass production and nutrient accumulation.<p>Nutrient additions to the HPA were greater than the HPP plantations for leaf litterfall and leaching. Nutrient resorption from senescing leaves was greater at the HPP plantation suggesting that nutrient pools were smaller and that trees responded by keeping nutrients in the biomass. Fertilization at both plantations increased nutrient flow for inputs and outputs in 2004-05. Water leachate and leaf litterfall showed increased nutrient contents in fertilized treatments at both plantations.<p>A high fertility plantation that used fertilizer and practiced whole-tree harvesting exported more nutrients (and fibre) than a plantation with marginal site quality practicing stem-only harvesting. Time to replenish nutrients from atmospheric deposition and mineral weathering would range from 6 to 50 years for Ca and N, respectively, suggesting that subsequent plantations would require fertilizers to replenish soil nutrient reserves.<p>While HP plantations in Saskatchewan can produce high yields, they require large nutrient inputs and are inefficient (sequester a large amount) in nutrient use. High site quality is important to obtain high yields but conservational techniques, such as stem-only harvesting, are important in maintaining site quality over the long-term.

Long-term productivity

Hybrid poplar

Measuring and modeling gene flow from hybrid poplar plantations : implications for transgenic risk assessment /

DiFazio, Stephen P.

January 2002

Thesis (Ph. D.)--Oregon State University, 2002. / Typescript (photocopy). Includes bibliographical references (leaves 171-190). Also available on the World Wide Web.

Poplar Transgenic plants Tree farms.

Afforestation in Alberta: A Case Study Evaluating the Economic Potential of Hybrid Poplar Plantations Given Bio-Energy and Carbon Sequestration Considerations

St. Arnaud, Lee

Unknown Date

No description available.

Land Use Change

Hybrid Poplar

Peroxyalkanoic cellulose purification of steam exploded yellow poplar /

Van Winkle, Stephen C.,

January 1992

Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 105-109). Also available via the Internet.

Canopy architecture of clonal hybrid Populus : implications for light reflectance, interception, and physiology /

Brown, Kimberly Jo.

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 104-115).

Leaves Leaves Poplar Forest canopies.

Vapor phase uptake of volatile organic contaminants by hybrid poplar trees

Breite, Sally Rebecca,

January 2007

Thesis (M.S.)--University of Missouri--Rolla, 2007. / Vita. The entire thesis text is included in file. Title from title screen of thesis/dissertation PDF file (viewed October 23, 2007) Includes bibliographical references (p. 54-57).

Condensed tannins as in vivo antioxidants in Populus tremula x tremuloides

Gourlay, Geraldine

24 December 2019

Plants are exposed to diverse environmental stresses, which can lead to the accumulation of harmful reactive oxygen species (ROS). To prevent cellular damage, plants have evolved diverse antioxidant compounds and mechanisms to scavenge and remove ROS. My research aimed to determine if condensed tannins (CTs) function as in vivo antioxidants in plants. CTs are abundant plant secondary metabolites and are well-known for their strong in vitro antioxidant activity, but their function as antioxidants in planta has not previously been investigated. I used transgenic hybrid poplar (Populus tremula x tremuloides) with high (MYB134- and MYB115-overexpressing) and low (MYB134-RNAi) leaf CT content. Three different abiotic stresses were used to induce oxidative stress in the plants: methyl viologen (MV), drought, or UV-B stress. Oxidative stress can damage the plant's photosystems, and this damage was assessed using chlorophyll fluorescence. I employed light-adapted (Fq’/Fm’) and dark-adapted (Fv/Fm) parameters of chlorophyll fluorescence and monitored photosystem II function during each stress. Under all three stresses, the high-CT transgenics retained greater chlorophyll fluorescence, demonstrating reduced photosystem II damage, compared to wild-type plants. Oxidative damage was measured by quantifying malondialdehyde (MDA), and hydrogen peroxide (H2O2) was quantified as a measure of ROS accumulation. High-CT plants consistently accumulated less H2O2 and MDA than wild-type plants before and after each stress. MYB134-RNAi plants showed the converse effects, as predicted by lower CT concentrations, with reduced photosystem function and increased levels of H2O2 and MDA compared to wild-type following each stress. Overall, this work demonstrates that CTs can function as in planta antioxidants and can aid in protection against oxidative damage. My work provides the first evidence for an antioxidant function of CTs in living plants exposed to stress. / Graduate / 2020-12-18

condensed tannins

antioxidants

poplar

stress