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Bruce A. Kimball
Researcher at Agricultural Research Service
Publications - 243
Citations - 17104
Bruce A. Kimball is an academic researcher from Agricultural Research Service. The author has contributed to research in topics: Evapotranspiration & Stomatal conductance. The author has an hindex of 69, co-authored 240 publications receiving 15199 citations. Previous affiliations of Bruce A. Kimball include Monell Chemical Senses Center & Colorado State University.
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Determination of cabergoline by electrospray ionization tandem mass spectrometry : Picogram detection via column focusing sample introduction
TL;DR: An electrospray ionization tandem mass spectrometric method was developed for low-picogram detection of an ergot alkaloid, cabergoline, in coyote plasma extracts and it was found that the ability to inject larger sample volumes led to a greatly lowered detection limit.
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Ultra-enhanced spring branch growth in CO2-enriched trees: can it alter the phase of the atmosphere’s seasonal CO2 cycle?
Craig D. Idso,Sherwood B. Idso,Bruce A. Kimball,Hyoungshin Park,J. Kenneth Hoober,Robert C. Balling +5 more
TL;DR: In this paper, the authors investigated the role of aerial fertilization in the early drawdown of atmospheric CO2 and the subsequent advance of the seasonal CO2 cycle in northern temperate latitudes.
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Environmental effects on wetlands of queletox® applied to ploceid roosts in Kenya
TL;DR: Queletox® (Fenthion) is widely used in Africa to kill birds that eat cereal crops and applications to wetland roosts reported to kill nontarget animals and contaminate areas used by livestock and humans are evaluated.
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Seasonal Variations of Antioxidants in Wheat (Triticum aestivum) Leaves Grown Under Field Conditions
Maurizio Badiani,Anna Rita Paolacci,Franco Miglietta,Bruce A. Kimball,P. J. Pinter,RL Garcia,D. J. Hunsaker,R. L. LaMorte,GW Wall +8 more
TL;DR: It is suggested that a higher antioxidant capacity could be required in order to face endogenous and transient oxidative strain associated with definite plant developmental stages, namely juvenility, floral induction, stem elongation, anthesis and senescence.
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Atmospheric CO2 enrichment and plant dry matter content
TL;DR: In this article, the authors measured fresh and dry plant weights throughout a number of different CO2 enrichment experiments with six terrestrial plants and two aquatic species and found that CO2 had little effect on plant percentage dry matter content, except under conditions conducive to starch accumulation in leaves, and then it caused an increase in percentage drymatter content.