Browsing by Author "Barry Goldfarb, Member"
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- Climate Vulnerability, Gender, and Decision-Making Capability within Food Insecure Households in Sudanian West Africa.(2020-06-19) Wood, Alexa Lee; Louie Rivers, Chair; Barry Goldfarb, Member; Bethany Cutts, Minor; Erin Seekamp, Member
- Forecasting for Intended Consequences in Conservation Decision-Making.(2021-05-07) Mozelewski, Tina Grace; Robert Scheller, Chair; Martha Reiskind, Member; Adam Terando, Member; Jodi Forrester, Member; Barry Goldfarb, Member
- Highly Reactive Calcium Fertilizer Response on the Growth and Nutrient Availability of Eucalyptus grandis.(2019-10-15) Zelaya Andino, Ariel Saul; Rachel Cook, Chair; Barry Goldfarb, Member; Alexander Woodley, Minor
- Management effects on soil carbon balance in loblolly pine (Pinus taeda L.) plantations in the southeastern United States.(2017-06-28) Fang, Yuan; Asko Noormets, Co-Chair; John King, Co-Chair; Barry Goldfarb, Member; Dean Hesterberg, Minor
- Modeling the Decisions of Malian Farmers as Climate Change Decreases Their Food Security.(2017-11-09) Wooten, Elizabeth Kaye; Louie Rivers, Chair; Jason Delborne, Member; Barry Goldfarb, Member
- Novel Approaches for Artificial Infestations and Early Resistance Screening of Fraser Fir against the Balsam Woolly Adelgid.(2012-12-06) Newton, Leslie Phelps; Fred Hain, Chair; Lewis Frampton, Co-Chair; Barry Goldfarb, Member; John Monahan, Member; Hugh Devine, Minor
- Stand and soil responses of a loblolly pine plantation to midrotation fertilization and vegetation control(2002-01-10) Gurlevik, Nevzat; H. Lee Allen, Chair; Daniel L. Kelting, Member; Barry Goldfarb, Member; Udo Blum, MemberThis study wasconducted in a 14-year-old midrotation loblolly pine (Pinus taeda L.) plantation to assess the effects of fertilizationand vegetation control (a) on soil net nitrogen mineralization, (b) litterdecomposition and (c) foliar nutrient concentrations and use, and vegetationgrowth. Fertilization (none, 224 kg haP) and vegetation control (none, complete) treatments were applied in a 2x2factorial design in March 1998. Soil net nitrogen mineralization was assessedby monthly field and laboratory incubations, litter decomposition and nutrient(N, P K, Ca, Mg, S, Mn, Zn, B, Cu) release dynamics were determined by thelitterbag method, foliar nutrient use of pines and hardwoods was estimated fromlitterfall and foliar nutrient concentrations, and growth was determined basedon annual measurements of diameter and height. Field net N mineralization rateswere 19, 18, 31, and 78 kg ha for control (C, notreatment), fertilization (F), vegetation control (VC), and vegetation controlplus fertilization (VC+F) treatments, respectively. Relative treatments responseswere similar in the laboratory incubations. Litter mass loss duringdecomposition was reduced by 9% after 32 months by vegetation control, andfertilization had no effect. The mobility of the nutrients was as follows: Cu≤N≤S<P<Zn≤Ca<K≤Mn<Mg≤B.Pine foliar N and P concentrations, and N and P use were significantlyincreased by fertilization, while effects of vegetation control on theseparameters were usually not significant. Fertilization significantly increasedannual volume growth of loblolly pine by up to 7 myr (32%) over the three years, while vegetation control had nosignificant effect.
- Tissue Culture of Pine Seedlings to Improve Vegetative Multiplication Rate.(2025-04-25) Cherotich, Leonida; Gary Hodge, Co-Chair; Juan Acosta Jaramillo, Co-Chair; Barry Goldfarb, Member; Hsuan Chen, Minor; Hudson Ashrafi, Graduate School Representative
- Using Ecohydrology and Bioenergy to Assess Ecosystem Services on Multifunctional Landscapes.(2016-08-30) Shifflett, Shawn Dayson; Elizabeth Nichols, Chair; Barry Goldfarb, Member; Ryan Emanuel, Minor; Jeff Wright, External; Dennis Hazel, Member
