Your search keyword '"Waite, I. S."' showing total 8 results

1. Microbial biomass, organic matter mineralization and nitrogen in soils from long-term experimental grassland plots (Palace Leas meadow hay plots, UK).

Author

Hopkins, D. W., Waite, I. S., and O'Donnell, A. G.

Subjects

*PLANT biomass, *NITROGEN in soils, *ORGANIC compound content of soils, *ECOLOGY, *GRASSLANDS, *FERTILIZERS, *MANURES

Abstract

The Palace Leas meadow hay plots have received different annual manure and fertilizer applications since 1897 and represent the second oldest permanent grassland experiment in the world. Although the soil properties have diverged as a result of the experimental treatments since 1897, the soil organic carbon (SOC) contents of the plots have remained largely unchanged between the 1980s and 2006. In this study we have determined the effects of contrasting manure and fertilizer treatments on the total N contents of the soil, the recalcitrance of soil organic matter, the contributions made from different depths to the overall C mineralization, and the distribution of soil microbial biomass in the soil profiles. Relative to the control plot, which has received no manure or fertilizer additions since 1897, the two plots that have received manure or P plus K contain significantly more N, which in the case of the P plus K plot is consistent with abundant Trifolium spp. in the sward. The plot that has received farmyard manure (FYM) contained 11% more N than the control. The two plots that received large inputs of (NH)SO and which have consequently become highly acidic (around pH 4) contain 15-27% less N than the control despite the N addition and the accumulation of SOC in these plots. The plot that has only received P has also apparently lost total N (20%) relative to the control. The rates of C mineralization of the microbial biomass were closely related to total SOC contents but have been positively influenced by the increased N in the P plus K plot. Values for soil N, C mineralization rate and microbial C are reported because such data from sites that have been under known long-term known land-use are extremely rare and because there is increasing realization of the potential importance of soil data, especially biological characteristics, for monitoring environmental changes. [ABSTRACT FROM AUTHOR]

Published

2011

2. Soil organic carbon contents in long-term experimental grassland plots in the UK (Palace Leas and Park Grass) have not changed consistently in recent decades.

Author

Hopkins, D. W., Waite, I. S., McNicol, J. W., Poulton, P. R., MacDonald, A. J., and O'Donnell, A. G.

Subjects

*CARBON in soils, *CARBON compounds, *ORGANIC compounds, *HUMUS, *GRASSLANDS, *SOIL management

Abstract

A recent report of widespread declines in soil organic C (SOC) in the UK over the 10–25 years until the early 2000s has focussed attention on the importance of resampling previously characterized sites to assess long-term trends in SOC contents and the importance of soils as a potentially volatile and globally significant reservoir of terrestrial C. We have used two sets of long-term experimental plots which have been under constant and known management for over a century and for which historical data exist that allow comparison over recent decades to determine what, if any, changes in SOC content have occurred. The plots used are the Palace Leas (PL) Meadow Hay Plots in north-east England (UK) established in 1897, and from the Park Grass (PG) Continuous Hay experiment established in 1856 at Rothamsted in south-east England. Collectively, these plots represent the only grassland sites in the UK under long-term management where changes in SOC over several decades can be assessed, and are probably unique in the world. The plots have received different manure and fertilizer treatment and have been under known management for at least 100 years. In 1982, total SOC contents were determined for the 0–27 cm layer of six of the PL plots using measurements of SOC concentrations, bulk density and soil depth. In 2006, the same six PL plots were resampled and SOC contents determined again. Four of the plots showed no net change in SOC content, but two plots showed net loss of SOC of 15% and 17% (amounting to decreases of 18 and 15 t C ha−1) since 1982. However, these differences in total SOC content were in a similar range to the variations in bulk density (6–31%) with changing soil water content. In 1959, the soil masses and SOC concentrations to 23 cm depth were measured on six PG plots with fertilizer and manure treatments corresponding closely with those measured on PL. In 2002, the SOC concentrations on the same plots were measured again. On three of the PG plots, SOC concentrations had declined by 2–10%, but in the other three it had increased by 4–8% between 1959 and 2002. If it is assumed that the soil bulk density had not changed over this period, the losses of SOC from the top soils ranged range from 10 to 3 t C ha−1, while the gains ranged from 4 to 7 t C ha−1. When the differences with time in SOC contents for the six PL and the six PG plots were examined using paired t-tests, that is, regarding the plots as two sets of six replicate permanent grasslands, there were no significant differences between 1982 and 2006 for the PL plots or between 1959 and 2002 for the PG plots. Thus, these independent observations on similar plots at PL and PG indicate there has been no consistent decrease in SOC stocks in surface soils under old, permanent grassland in England in recent decades, even though meteorological records for both sites indicate significant warming of the soil and air between 1980 and 2000. Because the potential influences of changes in management or land use have been definitively excluded, and measured rather than derived bulk densities have been used to convert from SOC concentrations to SOC amounts, our observations question whether for permanent grassland in England, losses in SOC in recent decades reported elsewhere can be attributed to widespread environmental change. [ABSTRACT FROM AUTHOR]

Published

2009

3. Impact of dietary fibre type and content on Escherichia coli shedding and microbial structure after weaning.

Author

Jenkins, S. N., Waite, I. S., Mansfield, J. P., Kim, J. C., and Pluske, J. R.

Subjects

FIBER in animal nutrition, ESCHERICHIA coli, SWINE

Published

2019

4. Black soldier fly technology can convert piggery manure into valuable fertiliser.

Author

Jenkins, S. N., Waite, I. S., Abbott, L. K., and Wheat, L.

Subjects

SWINE manure, FERTILIZERS, AGRICULTURAL wastes

Published

2019

5. Assessing the suitability of microalgae biomass produced from piggery waste as a fertiliser.

Author

Jenkins, S. N., Paredes-Valdivia, C. A., Waite, I. S., Ayre, J., Moheimani, N., Barton, L., and Abbott, L. K.

Published

2017

6. Effectiveness of different mitigation strategies to reduce nitrous oxide emissions from pig manure amended soils.

Author

Jenkins, S. N., Waite, I. S., Mickan, B., and Abbott, L. K.

Subjects

*NITROUS oxide, *MANURES

Abstract

A case study is presented which is aimed at evaluating the effectiveness of different pig manure types like stockpiled, composted, and pelletised manure with different application methods like broadcast or incorporated into the soil at reducing nitrous oxide emissions following manure amendment.

Published

2015

7. Relationships between diets different in fibre type and content with growth, Escherichia coli shedding, and faecal microbial diversity after weaning.

Author

Jenkins, S. N., Waite, I. S., Mansfield, J., Pluske, J. R., and Kim, J. C.

Subjects

*POLYSACCHARIDES, *GASTROINTESTINAL system, *CHRISTENSENELLACEAE

Abstract

The article mentions that increasing dietary Insoluble non-starch polysaccharides (iNSP) can decrease enterotoxigenic E. coli (ETEC) shedding in the gastrointestinal tract (GIT) and improved growth performance, increasing dietary soluble NSP significantly decreased abundance of Christensenellaceae.

Published

2015

8. A flow cytometric study of c-erbB-3 expression in breast cancer.

Author

Brotherick I, Shenton BK, Angus B, Waite IS, Horne CH, and Lennard TW

Subjects

Breast Neoplasms pathology, Female, Flow Cytometry, Humans, Lymphatic Metastasis, Receptor, ErbB-3, Receptors, Estrogen analysis, Tumor Cells, Cultured, Breast Neoplasms chemistry, ErbB Receptors analysis, Proto-Oncogene Proteins analysis

Abstract

In order to assess the specificity of biotinylated anti-c-erbB-3 antibody, screening was performed on a series of tumour cell lines and lymphocytes. Staining was found to be consistent, with good reproducibility. Twenty-nine consecutive breast cancer samples were obtained from women treated with tamoxifen and undergoing elective mastectomy. Twenty-eight invasive ductal carcinomas and 1 DCIS were stained for c-erbB-3 expression: 2 were grade I (Bloom and Richardson), 15 grade II, and 11 grade III tumours, 1 being unclassified; 16 were axillary node positive and 10 node negative; in 2 cases no nodes were sampled. Tumours examined by flow cytometry were stained with cytokeratin FITC antibody and the cytokeratin-positive population gated. Using Mann-Whitney analysis no association was seen between c-erbB-3 expression and Bloom and Richardson grade or axillary node status. In the tumour samples c-erbB-3 expression was found to show as association with EGF-R (P = 0.021 r2 = 0.16), PgR (P = 0.02, r2 = 0.16), c-myc (P < 0.0001, r2 = 0.5), c-jun (P = 0.001, r2 = 0.4) and c-fos (P = 0.001, r2 = 0.5) but not with c-erbB-2 (P = 0.2, r2 = 0.06), ER (P = 0.4, r2 = 0.02) or p53 1801 (P = 0.05, r2 = 0.2). Expression of c-erbB-3 may not be an independent marker of prognosis, but it is associated with other markers of poor prognosis and early cellular events linked with aberrant growth and differentiation.

Published

1995