The role of ruminant urine and faeces in the recycling of nutrients by forages

A - Papers appearing in refereed journals

Kao, P., McGrath, S. P., Buss, H. L., Darch, T., Warren, H. E., Mcauliffe, G., Cardenas, L. M., Blackwell, M. S. A. and Lee, M. R. F. 2024. The role of ruminant urine and faeces in the recycling of nutrients by forages. Scientific Reports. 14, p. 16007. https://doi.org/10.1038/s41598-024-66648-z

AuthorsKao, P., McGrath, S. P., Buss, H. L., Darch, T., Warren, H. E., Mcauliffe, G., Cardenas, L. M., Blackwell, M. S. A. and Lee, M. R. F.
Abstract

This study addresses the effect of using animal excreta on the nutritional content of forages, focusingon macro- and micro-element concentrations (nitrogen; N, phosphorus; P, sulphur; S, copper; Cu,zinc; Zn, manganese; Mn, selenium; Se) from animal feed to excreta, soil, and plants. Data were
collected from pot and field trials using separate applications of sheep or cattle urine and faeces. Key findings indicate that soil organic carbon (SOC) and the type of excreta significantly influences nutrient uptake by forages, with varied responses among the seven elements defined above. Although urine contributes fewer micronutrients compared to faeces (as applied at a natural volume/mass basis, respectively), it notably improves forage yield and micronutrient accumulation, thus potentially delivering positive consequences at the farm level regarding economic performance and soil fertility when swards upon clayey soil types receive said urine in temperate agro-climatic regions (i.e., South West England in the current context). In contrast, faeces application in isolation hinders Se and Mn uptake, once again potentially delivering unintended consequences such as micronutrient deficiencies in areas of high faeces deposition. As it is unlikely that (b)ovine grazing fields will receive either urine or faeces in isolation, we also explored combined applications of both excreta types which demonstrates synergistic effects on N, Cu, and Zn uptake, with either synergistic or dilution
effects being observed for P and S, depending largely on SOC levels. Additionally, interactions between excreta types can result in dilution or antagonistic effects on Mn and Se uptake. Notably, high SOC combined with faeces reduces Mn and Se in forages, raising concerns for grazed ruminant
systems under certain biotic situations, e.g., due to insufficient soil Se levels typically observed in UK pastures for livestock growth. These findings underscore the importance of considering SOC and excreta nutritional composition when designing forage management to optimize nutrient uptake. It should be noted that these findings have potential ramifications for broader studies of sustainable
agriculture through system-scale analyses, as the granularity of results reported herein elucidate gaps in knowledge which could affect, both positively and negatively, the interpretation of model-based environmental impact assessments of cattle and sheep production (e.g., in the case of increased yields [beneficial] or the requirement of additional synthetic supplementation [detrimental]).

KeywordsManure; Micronutrients; Dilution; Antagonism; Synergism; Sustainable agriculture
Year of Publication2024
JournalScientific Reports
Journal citation14, p. 16007
Digital Object Identifier (DOI)https://doi.org/10.1038/s41598-024-66648-z
Open accessPublished as ‘gold’ (paid) open access
FunderBiotechnology and Biological Sciences Research Council
Funder project or codeS2N - Soil to Nutrition - Work package 1 (WP1) - Optimising nutrient flows and pools in the soil-plant-biota system
S2N - Soil to Nutrition - Work package 2 (WP2) - Adaptive management systems for improved efficiency and nutritional quality
The North Wyke Farm Platform- National Capability [2017-22]
Publisher's version
Output statusPublished
Publication dates
Online11 Jul 2024
Publication process dates
Accepted03 Jul 2024
PublisherNature Publishing Group
ISSN2045-2322

Permalink - https://repository.rothamsted.ac.uk/item/99142/the-role-of-ruminant-urine-and-faeces-in-the-recycling-of-nutrients-by-forages

69 total views
18 total downloads
11 views this month
1 downloads this month
Download files as zip