Heleen Deroo scite author profile

Heleen Deroo

5Publications

117Citation Statements Received

68Citation Statements Given

How they've been cited

186

How they cite others

199

Affiliations

Ghent University, Connecticut Agricultural Experiment Station

Publications

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The Fate of Nitrogen Fertilizer Applied to Turfgrass¹

Starr¹,

Deroo²

1981

Crop Science

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Field plots, instrumented with suction lysimeter and neutron probe access pipes, were used to study the fate of nitrogenous fertilizer applied to turfgrass grown on a sandy loam soil. Fertilizer N was applied to each plot at a rate of 195 kg ha−1 in each of the first 2 years and 180 kg ha−1 in the 3rd year to each plot. The fertilizer N was in a 50:50 split application in May and September of each year. Grass clippings were returned, after subsampling, to two of the four plots. In the 3rd year, the use of 15N as a tracer in conjunction with grass clipping management provided the means to quantify the N in the grass derived from fertilizer, soil, the current year's grass clippings, and the previous 2 years of grass clippings. For example, where clippings were not returned, about equal quantities of N were derived from soil and fertilizer. Where clippings were returned, the yield of grass increased by about one‐third and nearly equal proportions of N in the plant tissue came from soil, fertilizer, and grass clippings.

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Link between paddy soil mineral nitrogen release and iron and manganese reduction examined in a rice pot growth experiment

et al. 2018

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Do interactions between application rate and native soil organic matter content determine the degradation of exogenous organic carbon?

Mendoza¹,

Deroo²,

Li³

et al. 2022

Soil Biology and Biochemistry

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Impact of irrigation management on paddy soil N supply and depth distribution of abiotic drivers

Akter

Deroo

Kamal

et al. 2018

Agriculture, Ecosystems & Environment

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Soil texture controls added organic matter mineralization by regulating soil moisture—evidence from a field experiment in a maritime climate

Bulcke

Mendoza

et al. 2022

Geoderma

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Soil organic carbon (SOC) levels generally increase with increasing clay and silt content under similar climatic conditions because of increased physicochemical protection. Surprisingly though, many silt loam soils in Western Europe have low top SOC levels compared to coarser textured soils. Soil texture also strongly controls soil moisture with consequent indirect impact on heterotrophic activity. Especially during periods of prolonged drought, which seem to be occurring more frequently throughout Europe, it could be expected that this soil textural control of moisture retention decisively affects added organic matter (OM) decomposition. We hypothesized that, contrary to expected textural effects on physicochemical protection of OM, the higher moisture availability in silty soils strongly favors added OM mineralization during periodic drought than sandy soils. Moreover, as a secondary objective, we investigated if during prolonged drought, capillary moisture supply could significantly alleviate the water stress on added OM decomposition in sand with rather shallow groundwater table. Therefore, we established a one-year field trial in which the upper 0.5 m soil layer was replaced by sand, sandy loam and silt loam soil with low SOC. In a fourth treatment, a gravel layer was added beneath the sand layer to exclude capillary rise. Maize residues were mixed homogenously with soil in top 25 cm in all plots. Changes in soil moisture and maize-C mineralization (C maize -min) were measured. We found that soil texture did not affect C maize -min until after about five months and thereafter C maize -min rates were higher in the silt loam than in the sandy soils. Moisture content correlated positively with the C maize -min rate for the sand-textured soils only. Capillary rise did not result in a significant increase in C maize -min in the sandy soil. After one year, a larger share of added C maize was mineralized in the silt loam soil (81 ± 6%) than in the sandy soil (56 ± 7%). These results clearly highlight that soil texture controlled C maize -min indirectly through regulating moisture under the field conditions when the study area faced a period of unusual drought. Moreover, our results imply that, under future climate scenarios, more frequent droughts might lead to a lesser SOC depletion in sandy soils compared to in finer textured soils under similar management.

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Heleen Deroo

The Fate of Nitrogen Fertilizer Applied to Turfgrass¹

Link between paddy soil mineral nitrogen release and iron and manganese reduction examined in a rice pot growth experiment

Do interactions between application rate and native soil organic matter content determine the degradation of exogenous organic carbon?

Impact of irrigation management on paddy soil N supply and depth distribution of abiotic drivers

Soil texture controls added organic matter mineralization by regulating soil moisture—evidence from a field experiment in a maritime climate

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Heleen Deroo

The Fate of Nitrogen Fertilizer Applied to Turfgrass1

Link between paddy soil mineral nitrogen release and iron and manganese reduction examined in a rice pot growth experiment

Do interactions between application rate and native soil organic matter content determine the degradation of exogenous organic carbon?

Impact of irrigation management on paddy soil N supply and depth distribution of abiotic drivers

Soil texture controls added organic matter mineralization by regulating soil moisture—evidence from a field experiment in a maritime climate

Contact Info

Product

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The Fate of Nitrogen Fertilizer Applied to Turfgrass¹