Biblio
“Response of highbush blueberry to nitrogen fertilizer during field establishment. I. Accumulation and allocation of fertilizer nitrogen and biomass.”, HortScience, vol. 47, pp. 648-655, 2012.
, “Response of highbush blueberry to nitrogen fertilizer during field establishment—II. Plant nutrient requirements in relation tonNitrogen fertilizer supply.”, HortScience, vol. 47, pp. 917-926, 2012.
, “Specialty fruit production in the Pacific Northwest: adaptation strategies for a changing climate”, Climatic Change, 2017.
, “Susceptibility of highbush blueberry cultivars to phytophthora root rot”, HortScience, 2016.
, “Uptake and partitioning of nutrients in blackberry and raspberry and evaluating plant nutrient status for accurate assessment of fertilizer requirements”, HortTechnology, 2015.
, “Uptake and partitioning of nutrients in blackberry and raspberry and evaluating plant nutrient status for accurate assessment of fertilizer requirements”, HortTechnology, 2015.
, “Variation in plant and soil water relations among irrigated blueberry cultivars planted at two distinct in-row spacings”, Acta Hort., vol. 715, pp. 295-300, 2006.
, “Weed management practices for organic production of trailing blackberry: I. Plant growth and early fruit production.”, HortScience, vol. 48, pp. 1139-1144, 2013.
, “Weed management practices for organic production of trailing blackberry: II. Accumulation and loss of biomass and nutrients. ”, HortScience, vol. 49, pp. 35-43, 2014.
, “Weed management, training, and irrigation practices for organic production of trailing blackberry: II. Soil and aboveground plant nutrient concentrations.”, HortScience, 2016.
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