Ecologicai and productivity responses to agricultural management were studied over eiglit
years in species-ricii hay meadows within a Site of Special Scientific Interest on a Somerset
peat moor. The vegetation typified that of many wet meadows on the Somerset Levels and
elsewhere, definable as MG5 {Cynosurus cristatus-Centaurea nigra meadow) and MG8
{Cynosurus cristatus-Caittia palustris flood pasture) within the National Vegetation
Classification.
The effects of inorganic fertilizers on species diversity, soil nitrogen loss and
agricultural productivity (hay yield and beef production during aftermath grazing), were
investigated during 1986-90. These data were subsequently analyzed for the effects of
variations in water table depth on productivity and soil N losses. Further studies in 1991-93
covered: (a) soil seed bank composition in relation to above ground vegetation; (b) the
effect of different cutting dates on seed rain, vegetation composition and herbage yield and
quality; and (c) seed shedding as influenced by hay making operations.
The vegetation was sensitive to even small fertilizer inputs, particularly of P and K,
both in terms of increased productivity and reduced botanical diversity. Species diversity
also declined on unfertilized plots in one experiment, after a change from aftermath grazing
to cutting only. Leaching and denitrification of soil N following N application were both high
compared with soils elsewhere, due to the high water table. Fertilizers caused a four-fold
shift in soil seed bank composition towards nitrophilous species and increased the ratio of
short-term to long-term persistent species. Cutting in May or September affected both the
total seed rain and the balance of species represented and significantly reduced vegetation
diversity, compared with cutting in July or August.
The thesis includes an extensive literature review and the results are discussed in
the context of (a) current theories on the relationships between species diversity, soil
fertility, disturbance and productivity, and (b) hay meadow management within
Environmentally Sensitive Areas. It is concluded that production response to fertilizers is
not constrained by the species richness of the vegetation, but there is no scope for
increasing soil fertility without reducing species diversity. Nitrate leaching risk is increased
with N rates above about 75 kg ha'^ year"^ at ambient water table levels, but no N should
be applied where high water tables are maintained. Occasional cutting after July is
necessary to allow most species to set seed and to maintain a persistent soil seed bank.
Date of Award | 1996 |
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Original language | English |
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Awarding Institution | |
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THE AGRICULTURAL ECOLOGY OF HAY MEADOWS WITHlN THE SOMERSET LEVELS AND MOORS ENVIRONMENTALLY SENSITIVE AREA
KIRKHAM, F. W. (Author). 1996
Student thesis: PhD