V. R. Kanneganti scite author profile

Animal manures are an important source of N for crop production. Efficient use of manure is necessary to increase N recycling, eliminate excessive purchase of fertilizer N, and reduce N loss to the environment. An estimate of the annual rate of organic N mineralization in manure is a necessary prerequisite to efficient manure N management. A mineralization or decay series for the organic N in dairy manure was estimated for corn (Zea mays L.) production from several field experiments over a 5‐ to 8‐yr period. Four rates of sidedressed fertilizer N (0, 56, 112, and 224 kg N ha−1) were superimposed over several springapplied manure treatments ranging from 0 to 168 Mg ha−1 yr−1. Ammonia volatilization from manure was encouraged, to allow for an assessment of the fertilizer N equivalence of the more stable organic N fraction. Based on silage dry matter yield and N uptake, a decay series of 0.16, 0.10, 0.03, 0.03 and 0.02, and 0.21, 0.09, 0.03, 0.03 and 0.02, respectively, described the fertilizer N equivalence of organic N. The first number in the decay series estimates the fraction of organic N that is available for crop use during the year of application, and the second to fifth numbers are estimates of available N from residual N in Years 2 through 5. An independent set of field data was used to evaluate the accuracy of the decay series. The predicted decay series, based on dry matter yield (R2 = 0.16) was more variable than the corresponding decay series based on N uptake (R2 = 0.72). The non‐N effects of manure were insignificant, and therefore yield and N uptake were directly related to the N contribution.

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Orchardgrass response to different types, rates and application patterns of dairy manure

Kaffka

Kanneganti

1996

Field Crops Research

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Nitrogen recovery by orchardgrass from dairy manure applied with or without fertilizer nitrogen

Kanneganti

Klausner

1994

Communications in Soil Science and Plant Analysis

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Milk Production of Fall-Calving Dairy Cows During Summer Grazing of Grass or Grass-Clover Pasture

Wu¹,

Kanneganti²,

Massingill³

et al. 2001

Journal of Dairy Science

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Milk production of fall-calving dairy cows during subsequent summer grazing was evaluated in two consecutive years using a total of 80 mid- to late-lactation Holsteins. Cows calved during September and October and grazed from April to August in the following year. In yr 1, 27 cows grazed a native grass pasture and 13 cows grazed a native grass-clover mixed pasture containing 26% red clover and white clover. In yr 2, 40 cows grazed native grass pasture as one group. Also, cows in yr 2 were administered bovine somatotropin, whereas in yr 1, no bST was used. Grazing cows also were fed concentrate supplements at 6.2 kg/d of dry matter (DM) in yr 1 and 7.9 kg/d of DM in yr 2 to provide 35 to 40% of total intake. Average daily milk during the grazing period decreased 3.6 kg in yr 1 and 7.7 kg in yr 2 when compared with milk yield extrapolated from the lactation curve established 10 wk before being turned out to pasture. Estimated DM intake during grazing was also less than what would have been expected had cows continued on a total mixed ration in confinement. Cows grazing the mixed pasture of grass and clover yielded 1.3 kg/d more milk than those grazing the grass pasture in yr 1. A decrease in milk resulting from the change from total mixed ration fed in confinement to grazing supplemented with concentrates was not avoided with these mid- to late-lactation cows, but the cumulative loss over the lactation was less than with early lactation cows in a companion study. Clover enhances the grazing value of pasture when grown with grasses.

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V. R. Kanneganti

An Approach for Estimating a Decay Series for Organic Nitrogen in Animal Manure

Orchardgrass response to different types, rates and application patterns of dairy manure

Nitrogen recovery by orchardgrass from dairy manure applied with or without fertilizer nitrogen

Milk Production of Fall-Calving Dairy Cows During Summer Grazing of Grass or Grass-Clover Pasture

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