S.E.M. Dekker scite author profile

1. The objective of this study was to determine the level and variation of the total mass, and load of nitrogen (N) and phosphorus (P) excreted into the outdoor run of organic egg production systems. 2. Three egg production farms with an aviary system and an outdoor run were selected for this study. Four measurements, one per season, were executed on each farm. 3. Mean content of N and P of a manure dropping was 14·0 g N kg⁻¹ and 3·12 g P kg⁻¹, mean mass of a dropping was 6·36 g and mean dry matter content of a dropping was 238 g kg⁻¹. Mean rate of excretion in the outdoor run was 2·99 droppings per hen per h. Mean percentage of hens outside during the time the outdoor run could be accessed was lowest on Farm 1 (1·7%), highest on Farm 2 (16·0%), and intermediate on Farm 3 (7·1%). 4. On all farms an exponential decrease of the number of hens and of the load of N and P with increasing distance from the hen house was found. Load of N exceeded the fertilisation standard (of 170 kg ha⁻¹y⁻¹) in the region at a 0 to 19 m distance from the hen house on Farm 1, 0 to 146 m on Farm 2 and 0 to 52 m on Farm 3. 5. It is concluded that the husbandry system should be redesigned to solve the problem of overloading, unwanted loss of N and P to the environment and loss of N and P from the organic production cycle.

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The evolution of the carbon footprint of Dutch raw milk production between 1990 and 2019

Hospers

Kuling

Modernel

et al. 2022

Journal of Cleaner Production

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Possibilities for monitoring CO2 sequestration and decomposition of soil organic matter on dairy farms

Lesschen

Vellinga²,

Dekker³

et al. 2020

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Emissions and sequestration of carbon in soils are not yet accounted for in the carbon footprint of dairy farms. The purpose of this study is to develop a reliable and transparent monitoring and accounting system for soil carbon sequestration and emissions at dairy farms. The scientists worked with study groups of dairy farmers, data analysis and model development. A monitoring system based on measurements of OM contents in existing soil analyses is not supportive enough at present to reliably estimate carbon sequestration in soils. However, a monitoring system based on a combination of soil sampling analyses, registration of activities and model calculations of changes in soil carbon quantities is technically possible. The uncertainties in these calculations are currently still too large to link these to a reliable penalty or reward system at farm level.

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S.E.M. Dekker

Ecological and economic evaluation of Dutch egg production systems

Emissions of ammonia, nitrous oxide, and methane from aviaries with organic laying hen husbandry

Total loss and distribution of nitrogen and phosphorus in the outdoor run of organic laying hens

The evolution of the carbon footprint of Dutch raw milk production between 1990 and 2019

Possibilities for monitoring CO2 sequestration and decomposition of soil organic matter on dairy farms

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