Editorial

Journal of Orthoptera Research 2018, 27(1): 1-2

Orthoptera response to grazing: an introduction fo the special issue

CoriNNA S. BAZELET!, Tim GARDINER2

1 Integrated Pest Management Initiative, Department of Conservation Ecology and Entomology, Stellenbosch University, Stellenbosch 7602, South Africa.
2 Environment Agency, Iceni House, Cobham Road, Ipswich, Suffolk IP3 9JD, UK.

Corresponding author: Corinna S. Bazelet (cbazelet@sun.ac.za)

Academic editor: Y. Mutafchiev | Received 5 June 2018 | Accepted 6 June 2018 | Published 12 June 2018

http://zoobank.org/B70AB 733-63 6B-4199-B3A9-3E2EA932B313

Citation: Bazelet CS, Gardiner T (2018) Orthoptera response to grazing: an introduction to the special issue. Journal of Orthoptera Research 27(1): 1-2.

https://doi.org/10.3897/jor.27.27213

Grazing is a global driver of vegetation dynamics and exerts far-
reaching effects on plant traits such as promoting the growth of an-
nual over perennial plants, short plants over tall plants, and procum-
bent plant architectures (Diaz et al. 2007). Since approximately one
quarter (26%) of Earth’s non-ice surface is utilized as wildland or
pastures for grazing of livestock and wild ungulates (FAO 2006),
grazing is responsible for shaping much of the world around us,
both directly and indirectly. Orthoptera, which largely co-occur with
mammalian grazers in pasturelands and meadows worldwide, are
more vulnerable to the effects of trampling and grazing than most.

The order Orthoptera includes many herbivorous species which
are specifically adapted to play an important nutrient cycling role
in grassland environments and compete with ungulates for the
same forage. All Orthoptera, herbivores and non-herbivores alike,
are sensitive to meso- and micro-climatic conditions (Gardiner and
Dover 2008) brought about, at least in part, by structural aspects
of their grazed habitats. With few exceptions (but see Gardiner et
al. 2002), the diversity and abundance of grassland orthopterans
correlate with vegetation structure rather than species composition
of the plant community (Hochkirch and Adorf 2007, Gardiner and
Hassall 2009, Bazelet and Samways 2011a), making Orthoptera
particularly vulnerable to habitat changes caused by grazing.

The effects of grazing on Orthoptera are multi-faceted and de-
pend on many biotic and abiotic factors relating to both the graz-
ing animal, the orthopteran, their surrounding environment, and
its management. In this issue, co-editor Gardiner (2018) provides
a detailed review of these factors which include, among others,
grazing intensity, type of grazing animal, and season of grazing;
as well as life stage of the orthopteran, its movement capability,
and resource requirements. Furthermore, in many environments
grazing is used as a defoliation technique in combination with
fire and/or mowing, all of which can have synergistic, comple-
mentary, neutral, or opposing effects on local Orthoptera (Joern
2005, Bazelet and Samways 2011b, Kati et al. 2012, Joubert et al.
2016). For these reasons, the effect of grazing on Orthoptera can
be either positive, negative or neutral. For instance, heavy livestock
grazing led indirectly to increased abundance of locusts in China
(Oedaleus asiaticus: Cease et al. 2012) and pest grasshoppers in

American rangelands (Aulocara elliotti: O'Neill et al. 2003). On the
other hand, in multi-species studies, total grasshopper density de-
creased in heavily grazed plots in Mediterranean pastures (Fonder-
flick et al. 2014), and for most species in the American rangeland
community (O’Neill et al. 2003).

The idea for this special issue originated from an International
Union of Nature Conservation (IUCN) Grasshopper Specialist
Group (GSG) email discussion in 2015, as the group discussed
possible monitoring targets and their implementation. As mem-
bers of the GSG described the monitoring needs for their particular
regions, and for species of conservation interest in their areas, the
impacts of grazing arose several times. Participants debated wheth-
er grazing impacts were net positive or negative for Orthoptera, as
well as logistical, political, and biological differences which were
particular to their region. It became clear that the impacts of graz-
ing are localized and specific to individual habitats and species.

In this special issue, we address the diversity of grazing im-
pacts on Orthoptera in two principal sections. First, we present
four papers from South Africa, North America, and Europe which
describe the effects of grazing at the habitat-scale and on Orthop-
tera communities. Joubert-van der Merwe and Pryke (2018) inves-
tigate the interaction of burning and grazing practices on a South
African grasshopper community, as well as on the subset of the
community which is endemic and rare. Kenyeres (2018), working
in a Hungarian grassland, investigates the effects of grazing inten-
sity, including the abandonment of grazing, on his local Orthop-
tera community. Lightfoot (2018) conducts a long-term study in
a North American semi-arid grassland to assess the interaction of
grazing and climate variation on the plant and Orthoptera com-
munities. Finally, Fargeaud and Gardiner (2018) review the effects
of grazing sea walls (i.e. dikes) throughout Europe on the resident
orthopteran communities and suggest measures to improve these
practices.

In the second group of articles, each study focuses on the ef-
fects of grazing on an individual Orthoptera species which is of
conservation concern. All four of these species are found in Eu-
rope and were included in the recently published Red List of Euro-
pean species (Hochkirch et al. 2016). Two of the species, the Criti-

JOURNAL OF ORTHOPTERA RESEARCH 2018, 27(1)

2 C.S. BAZELET AND T. GARDINER

cally Endangered Crau Plain grasshopper, Prionotropis rhodanica
(Pamphagidae), and the Near Threatened saltmarsh band-winged
grasshopper, Mioscirtus wagneri (Acrididae: Oedipodinae), are
found in Mediterranean regions of Europe, in France and Spain,
respectively. Both the Crau Plain grasshopper and the saltmarsh
band-winged grasshopper are rare habitat specialists which are
confined to very narrow niches. Piry et al. (2018) investigate
whether the population density and gene flow of the Crau Plain
grasshopper correlates with habitat quality as an indication of
sheep grazing. Aguirre et al. (2018) relate the presence and abun-
dance of the saltmarsh band-winged grasshopper to the presence
and abundance of goat and sheep droppings.

The two final articles discuss the British populations of species
which were assessed as Least Concern globally (Hochkirch et al.
2016), but which have experienced significant range reductions in
Britain in recent years. Selman and Cherrill (2018) investigate the
effects of grazing on the lesser mottled grasshopper, Stenobothrus
stigmaticus (Acrididae: Gomphocerinae), at its last remaining site
in Britain. Miller and Gardiner (2018) review the interactive effects
of mowing and grazing on the large marsh grasshopper, Stetho-
phyma grossum (Acrididae: Oedipodinae), which is confined to wet
habitats in two regions of Britain. Both studies make reeommenda-
tions for mitigating measures to help conserve their species.

The articles presented here contribute significant evidence to
the growing body of work investigating the effects of ungulate
grazing on Orthoptera. This relationship is not straight-forward,
and our hope is that this synthesis will assist in identifying gener-
al, common principles that can be used to improve management
decision-making for the benefit of healthy ecosystems and the sur-
vival of threatened Orthoptera species.

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