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Heerema, R

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Heerema, R

Flynn, R

Heerema, R

Moran Duran, S

Heerema, R

Sherman, J

Walworth, J

Heerema, R

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Filter results5 paper(s) found.
1. Pecan Rootstock Genotype Effects on Micronutrient Uptake in Alkaline, Calcareous Soils Alkaline pH and lime content of soils in arid or semi-arid production regions often result in severe micronutrient deficiencies in pecan (Carya illinoinensis). Producers routinely manage micronutrients, especially zinc, through repeated foliar fertilizer sprays. Nevertheless, limited phloem mobility of micronutrients creates some challenges with this practice in pecan, including difficulty achieving adequate canopy spray coverage (e.g., due to large tree size or prolonged unsuitable... R. Heerema
2. Pecan Response to Foliar Nickel Applications New Mexico’s pecan industry is one of the state’s most important agricultural assets. In 2010, pecan growers in Dona Ana County produced 19,504 kg of pecans, on over 10,000 ha and was worth over $123 million dollars, making Dona Ana county the number one pecan producing county in the nation. Nickel (Ni) is a component of the enzyme urease which is critical for the mobilization of nitrogen within the pecan tree. Deficiency symptoms are often expressed in pecan as a “mouse-ear”... R. Flynn, R. Heerema, S. Moran duran Download paper
3. Manganese Nutrition and Photosynthesis of ‘Pawnee’ Pecan Southwestern pecan (Carya illinoinensis) orchard soils are alkaline and calcareous which negatively affects manganese (Mn) availability for root uptake. Mn is essential for photosynthesis because of its roles in the photosystem II complex and chlorophyll biosynthesis. Levels of leaf Mn for optimum photosynthesis (Pn) in pecan is not known. Our objective was to characterize the relationship of widely different leaf tissue Mn concentrations on Pn. The experiment was conducted from 2011 through 2012... R. Heerema, J. Sherman Download paper
4. Soil Application of Zinc to Pecans in Calcareous Soils Zinc deficiency is common in pecans outside their native range, especially in alkaline soils. Zinc-deficient pecan leaves have interveinal chlorosis or necrosis, decreased leaf thickness, and reduced photosynthetic capacity. Foliar Zn application is routine in Southwestern US pecan orchards. Soil Zn application has not been part of pecan management in high pH, calcareous soils because of the soils’ ability to adsorb soluble Zn. We are evaluating efficacy of fertigated chelated ZnEDTA in... J. Walworth, R. Heerema Download paper
5. Evaluation of Soil-applied Eddha-chelated Iron Fertilizer for Use in Correcting Iron Deficiency Symptoms in Mature Pecan Trees in the Pecos Basin, New Mexico Soils in the Pecos Basin of New Mexico are characterized by pH 7.5-8.5 and lime content 15-30%. Under these conditions pecan trees are prone to micronutrient deficiencies; pecan trees throughout the basin exhibit interveinal leaf chlorosis symptoms characteristic of iron (Fe) deficiency. In orchards where the Fe chlorosis symptoms occur, affected trees are typically scattered through the orchard in no apparent pattern. Foliar application of ferrous sulfate fertilizer sprays (as well as other micronutrient... R. Heerema, R. Flynn Download paper

Filter results5 paper(s) found.

1. Pecan Rootstock Genotype Effects on Micronutrient Uptake in Alkaline, Calcareous Soils

Alkaline pH and lime content of soils in arid or semi-arid production regions often result in severe micronutrient deficiencies in pecan (Carya illinoinensis). Producers routinely manage micronutrients, especially zinc, through repeated foliar fertilizer sprays. Nevertheless, limited phloem mobility of micronutrients creates some challenges with this practice in pecan, including difficulty achieving adequate canopy spray coverage (e.g., due to large tree size or prolonged unsuitable... R. Heerema

2. Pecan Response to Foliar Nickel Applications

New Mexico’s pecan industry is one of the state’s most important agricultural assets. In 2010, pecan growers in Dona Ana County produced 19,504 kg of pecans, on over 10,000 ha and was worth over $123 million dollars, making Dona Ana county the number one pecan producing county in the nation. Nickel (Ni) is a component of the enzyme urease which is critical for the mobilization of nitrogen within the pecan tree. Deficiency symptoms are often expressed in pecan as a “mouse-ear”... R. Flynn, R. Heerema, S. Moran duran

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3. Manganese Nutrition and Photosynthesis of ‘Pawnee’ Pecan

Southwestern pecan (Carya illinoinensis) orchard soils are alkaline and calcareous which negatively affects manganese (Mn) availability for root uptake. Mn is essential for photosynthesis because of its roles in the photosystem II complex and chlorophyll biosynthesis. Levels of leaf Mn for optimum photosynthesis (Pn) in pecan is not known. Our objective was to characterize the relationship of widely different leaf tissue Mn concentrations on Pn. The experiment was conducted from 2011 through 2012... R. Heerema, J. Sherman

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4. Soil Application of Zinc to Pecans in Calcareous Soils

Zinc deficiency is common in pecans outside their native range, especially in alkaline soils. Zinc-deficient pecan leaves have interveinal chlorosis or necrosis, decreased leaf thickness, and reduced photosynthetic capacity. Foliar Zn application is routine in Southwestern US pecan orchards. Soil Zn application has not been part of pecan management in high pH, calcareous soils because of the soils’ ability to adsorb soluble Zn. We are evaluating efficacy of fertigated chelated ZnEDTA in... J. Walworth, R. Heerema

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5. Evaluation of Soil-applied Eddha-chelated Iron Fertilizer for Use in Correcting Iron Deficiency Symptoms in Mature Pecan Trees in the Pecos Basin, New Mexico

Soils in the Pecos Basin of New Mexico are characterized by pH 7.5-8.5 and lime content 15-30%. Under these conditions pecan trees are prone to micronutrient deficiencies; pecan trees throughout the basin exhibit interveinal leaf chlorosis symptoms characteristic of iron (Fe) deficiency. In orchards where the Fe chlorosis symptoms occur, affected trees are typically scattered through the orchard in no apparent pattern. Foliar application of ferrous sulfate fertilizer sprays (as well as other micronutrient... R. Heerema, R. Flynn

Download paper