TY - JOUR
T1 - Sward management influences fruiting of grassland basidiomycete fungi
AU - Griffith, Gareth Wyn
AU - Roderick, Kevin M
AU - Graham, Andrew
AU - Causton, David Robert
PY - 2012/1
Y1 - 2012/1
N2 - The loss of semi-natural grasslands in Europe, largely though ploughing/reseeding and synthetic fertiliser inputs, has caused a severe reduction in the diversity and abundance of grassland macrofungi. Of these, it is the colourful members of the genus Hygrocybe spp. (waxcaps) that have received most conservation attention, with current management prescriptions recommending the avoidance of fertiliser additions and maintenance of a short sward. However, the latter recommendation is based solely on empirical observations and is at odds with management strategies aimed at the conservation of many other groups of biota. In order to test the effect of sward height on macrofungal fruiting, a field experiment was established at a grassland site known to contain diverse populations (>50 species) of grassland fungi. Replicated 80 m(2) plots (n = 5) were subjected to mowing at 3 cm or 8 cm either from May or July onwards, as well as a late haycut to 3 cm in September or no mowing at all. Macrofungal fruitbodies were counted in fortnightly surveys during the autumn. Species richness and fruitbody numbers were greatest on plots mown to 3 cm, either continually or following a July haycut, with hardly any fruitbodies formed on uncut plots. Panaeolus acuminatus and Entoloma conferendum showed atypical responses, fruiting most prolifically on 8 cm-cut and September-cut plots respectively. Thus haycutting followed by maintenance of a short sward, a regime also compatible with maintaining diversity of many grassland plants and invertebrates, is conducive to abundant fruiting of diverse grassland fungi. The formation of fruitbodies is important for wider appreciation of these fungi and useful for their routine monitoring but further information about below-ground mycelial dynamics is urgently required. (C) 2011 Elsevier Ltd. All rights reserved.
AB - The loss of semi-natural grasslands in Europe, largely though ploughing/reseeding and synthetic fertiliser inputs, has caused a severe reduction in the diversity and abundance of grassland macrofungi. Of these, it is the colourful members of the genus Hygrocybe spp. (waxcaps) that have received most conservation attention, with current management prescriptions recommending the avoidance of fertiliser additions and maintenance of a short sward. However, the latter recommendation is based solely on empirical observations and is at odds with management strategies aimed at the conservation of many other groups of biota. In order to test the effect of sward height on macrofungal fruiting, a field experiment was established at a grassland site known to contain diverse populations (>50 species) of grassland fungi. Replicated 80 m(2) plots (n = 5) were subjected to mowing at 3 cm or 8 cm either from May or July onwards, as well as a late haycut to 3 cm in September or no mowing at all. Macrofungal fruitbodies were counted in fortnightly surveys during the autumn. Species richness and fruitbody numbers were greatest on plots mown to 3 cm, either continually or following a July haycut, with hardly any fruitbodies formed on uncut plots. Panaeolus acuminatus and Entoloma conferendum showed atypical responses, fruiting most prolifically on 8 cm-cut and September-cut plots respectively. Thus haycutting followed by maintenance of a short sward, a regime also compatible with maintaining diversity of many grassland plants and invertebrates, is conducive to abundant fruiting of diverse grassland fungi. The formation of fruitbodies is important for wider appreciation of these fungi and useful for their routine monitoring but further information about below-ground mycelial dynamics is urgently required. (C) 2011 Elsevier Ltd. All rights reserved.
KW - Basidiomycetes
KW - Fungal ecology
KW - Waxcap
KW - UK Biodiversity Action Plan
KW - Red Data List
KW - Fungal conservation
KW - Macrofungal diversity
UR - http://hdl.handle.net/2160/10774
U2 - 10.1016/j.biocon.2011.11.010
DO - 10.1016/j.biocon.2011.11.010
M3 - Article
SN - 0006-3207
VL - 145
SP - 234
EP - 240
JO - Biological Conservation
JF - Biological Conservation
IS - 1
ER -