Tag Archives: grasses

Not all aphids live on the underside of leaves

If I were to misquote Jane Austen and state “It is a truth universally acknowledged, that aphids are found on the underside of leaves” most people who know what aphids are would agree without quibbling. If natural enemies could speak, they would probably agree as this quote from an early paper by my former boss, Hugh Evans puts it  “since most aphids are found on the lower surfaces of leaves anthocorids must be wasting time in searching the upper leaf surface” (Evans, 1976). The only enemies that regularly search the upper surface of leaves are parasitoids, which use aphid honeydew as a host-findng cue (e.g. Volkl, 1994), which is where it falls if the leaves above them are infested with aphids.  We know that not all aphids feed on leaves, many using roots, flowers, stems and even tree trunks as their preferred feeding sites, but do all leaf-feeding aphids behave in the same way?

A few species of leaf-dwelling aphid buck the trend and live on the upper surface of leaves. Dogma has it that most leaf-feeding aphids prefer the underside because there are more stomata there and this makes access to the phloem easier.

Aphis grossulariae on the underside of a gooseberry leaf, – only revealed because I turned the leaf over.

Look, however, at a neat experiment that Graham Hopkins and Tony Dixon did (Hopkins & Dixon, 2000). They showed that the birch aphid Euceraphis betulae, which is normally found on the lower surface of leaves, will, if the leaves are held so that the upper surface faces the ground, move from the now facing upward lower surface to the now facing downward upper surface. The answer can’t all be to do with the stomata. That said, in grasses and other monocotyledonous plants, there are more stomata on the upper surface of the leaves andmMany grass-feeding aphids do seem to have a predilection for the upper surface. The green spruce aphid, Elatobium abietinum, another aphid that has a very strong preference for feeding through stomata, is found mainly on the upper surface of spruce needles which are where the stomata are more prevalent (Parry, 1971).

Utamophoraphora humboltdi feeding on the upper surface of Poa annua outside my office.

The Green Spruce Aphid, Elatobium abietinum feeding on the upper surface of spruce needles (Albrecht (2017)

It is possible, however, that the preference for the upper surface of grasses is not entirely due to the relative abundance of stomata there.  The grass aphid, Sipha kurdjumovi for example, although most commonly found feeding on the upper surface of grass and cereal leaves, prefers to settle on a concave ridged surface (Dixon & Shearer, 1974), a characteristic of the upper surface of many grasses  Lewton-Brain, 1904). Another advantage to living on the upper surface of grass leaves is that when grasses want to conserve water they roll inwards along the mid-vein, which has the added benefit of hiding the aphids and protecting them from their natural enemies.

Mainly, however, if you are an aphid, you feed where the stomata are plentiful, hence the tendency for aphids living on monocotyledonous plants to feed mainly on the upper surface of leaves, instead of the lower surface.  Conversely, a leaf-feeding aphid on a dicotyledonous host plant would be expected to feed on the lower surface of the leaves, where there are more stomata.  It also makes sense for those aphids to be underneath the leaf, as there is less chance of them being knocked off by the rain or being dislodged by leaves brushing against each other in the wind.

There are, however, two tree-dwelling aphids in the UK that live on the upper side of the leaves of their woody hosts, the very rare Monaphis antennata on birch (Hopkins & Dixon, 1997) and the less rare large walnut aphid, Panaphis juglandis on walnut (Heie, 1982). So what makes these aphids so contrary? According to Graham Hopkins and Tony Dixon (Hopkins & Dixon, 1997), M. antennata is taking advantage of enemy-free space and to compensate for living on top of the leaf is cryptic to avoid detection by enterprising predators, and has a flattened and contoured body shape to avoid accidental dislodgement.

When it comes to P. juglandis things are bit more conjectural.  Interestingly, despite being a pest in some parts of the world (e.g. Wani & Ahmad, 2014) we don’t know much about it. It is also hard to understand why it has adopted the upper side of the leaf as its habitat.  One very obvious downside

Panaphis juglandis – prominently lined up along the mid-vein of the upper surface of a walnut leaf and displaying their possible unpalatability by their conspicuous yellow and black colouration.  From Influential Points  https://influentialpoints.com/Images/Panaphis_juglandis_nymphs_on-vein_c2013-07-06_18-35-17ew.jpg

is that by so doing it has opened Itself up to competition from the other common walnut aphid, Chromaphis juglandicola, the honeydew of which falls from the leaves like acid rain on to P. juglandis and prevents them living on the same trees (Olson, 1974; Wani & Ahmad, 2014).  In the absence of C. juglandicola it is, however, very successful with a number of life history traits that presumably ensure its survival, although no one has quantified this. First, it is striped yellow and black, a clear warning sign.  Bob Dransfield and Bob Brightwell who run that fantastic site, Influential Points, suggest that perhaps P. juglandis sequesters juglone from its walnut host as a defence against predators. It therefore makes sense to advertise it by being conspicuously coloured.  Second, they also, point out that the way in which the nymphs line up along the mid-vein might act as a form of masquerade mimicry or disruptive camouflage, by looking from certain angles like a blemish caused  by a fungal disease or injury. Neither of these suggestions answer the question as to why it lives on the upper side of leaves. For M. antennata, escape from natural enemies and competition are cited as the reason why it lives where it does.  Neither seem to explain P. juglandis, as it is not, at least according to Olson (1974), safe from predation and parasitism, although there is some indication that it might be ant-attended (Fremlin, 2016), nor is it able to share its host plant with the other walnut specialist, Chromaphis juglandicola. On the other hand, unlike M. antennata, it is most definitely not a rarity.

As they used to say when I was young, “answers on a postcard please”. In the meantime, until someone has the time and inclination to delve into this intriguing conundrum, I guess we should add it to Ole Heie’s list of unsolved aphid mysteries 🙂

 

References

Albrecht, A. (2017) Illustrated identification guide to the Nordic aphids feeding on conifers (Pinophyta) (Insecta, Hemiptera, Sternorhyncha, Aphidomorpha). European Journal of Taxonomy, 338, 1-160.

Dixon, A.F.G. & Shearer, J.W. (1974) Factors determining the distribution of the aphid, Sipha kurdjumovi on grasses. Entomologia experimentalis et applicata, 17, 439-444.

Evans, H.F. (1976) The searching behaviour of Anthocoris confusus (Reuter) in relation to prey density and plant surface topography. Ecological Entomology, 1, 163-169.

Fremlin, M. (2016) The large walnut aphid (Panaphis juglandis Goeze) – A few observations. Nature in North-East Essex, 2016, 68-76.

Heie, O.E. (1982) Fauna Entomologia Scandinavia, Vol. 11. The Aphidoidea (Hemiptera) of Fennoscandia and Denmark. II. The family Drepanosiphidae. Scandinavian Science Press, Klampenbourg, Denmark.

Heie, O.E. (2009) Aphid mysteries not yet solved/Hemiptera:Aphidomorpha./. Monograph Aphids and Other Hemipterous Insects, 15, 31-48.

Hopkins, G.W. & Dixon, A.F.G. (1997) Enemy-free space and the feeding niche of an aphid. Ecological Entomology, 22, 271-274.

Hopkins, G.W. & Dixon, A.F.G. (2000) Feeding site location in birch aphids (Sternorrhyncha: Aphididae): the simplicity and reliability of cues. European Journal of Entomology, 97, 279-280.

Lewton-Brain, L. (1904). VII. On the anatomy of the leaves of British grasses. Transactions of the Linnaean Society of London, Botany, Series 2, 6, 312-359.

Olson, W.H. (1974) Dusky-veined walnut aphid studies. California Agriculture, 28, 18-19.

Parry, W.H. (1971) Differences in the probing behaviour of Elatobium abietinum feeding on Sitka and Norway spruces. Annals of Applied Biology, 69, 177-185.

Volkl, W. (1994) Searching at different spatial scales: the foraging behaviour of the aphid parasitoid Aphidius rosae in rose bushes. Oecologia, 100, 177-183.

Wani, S.A. & Ahmad, S.T. (2014). Competition and niche-partitioning in two species of walnut aphids. International Journal of Scientific Research and Reviews 3, 120 – 125.

Willmer, C. & Fricker W (1996)  Stomata, Springer, Berlin.

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Not all aphids live on leaves

I haven’t written about aphids for a while, so I thought I would indulge myself and tell you about a few of my favourite aphids.  Most people’s perceptions of aphids (assuming that they know what  aphids are of course) is that they live on leaves.  They will I think, also possibly know that they are usually found on the undersides of leaves, although I may be assuming too much here.  In fact, many species of aphid do not live on leaves; a number of species feed on shoots, twigs and branches and some actually feed on the main trunks of trees.  Yet other species live on the roots of trees and herbaceous plants, such as the apple-grass aphid, Rhopalosiphum insertum which can be a pest of apples and cereals, feeding on the leaves and buds of apples and the roots of grasses and cereals.   Another root-feeding aphid that is a double pest, is Pachypappa tremulae, the spruce root aphid, which host alternates between the aerial parts of aspen trees and the roots of Norway spruce; easily visible when infesting the roots of young potted plants due to the presence of white waxy tufts on its rear end.

Some aphids not only live underground feeding on roots, but are entirely dependent on being farmed by ants e.g.  Tetraneura ulmi, which host-alternates between elm and grass roots, and  Forda formicaria, which host-alternates between Pistachio trees and grass roots.

Forda_formicaria_hirsuta_root_aphid_03-03-13_3

http://www.aphotofauna.com/images/bugs_homoptera/bug_forda_formicaria_hirsuta_root_aphid_03-03-13_3.jpg

Both these aphids are looked after or ‘farmed’ by the yellow meadow ant Lasius flavus in exchange for donations of honeydew.

Lasius%20flavus%202

These two aphid species, along with a number of others, have an enlarged anal plate surrounded by special hairs that form the so-called trophobiotic organ.  This acts as a storage device that allows the aphid to accumulate honeydew ready for the ants to remove.  Those aphids that have a more casual (facultative) relationship with ants, do not have this organ which is the basis of this remarkable mutualism.

Another aphid that is farmed by ants, but in a somewhat different way, is the rather larger rose root aphid, Maculolachnus submacaula, which as its name suggests, feeds on rose roots.  In this case, the ants allow the aphids above ground but only in an ant tunnel, similar to those produced by termites when they are infesting a building.  I have only ever been lucky enough to see this aphid once, some 35 years ago in Norwich when I was doing my PhD and noticed things that looked like termite trails running up the main stem of one of my rose bushes.  On breaking them open, well I am a curious entomologist, I found to my surprise not only ants but large brown aphids.

Maculolachnus submacula nest

http://jardiweb-floralbum.forumsactifs.com/t1797-colonie-de-pucerons

for a better view of the aphid see http://www.afripics.co.za/home/products/product.php?ProductID=1301564582

But of course the really spectacular ones are those that feed on branches of trees such as the giant willow aphid Tuberolachnus salignus (famous for its sharks fin) and those from the genus Stomaphis which feed through the bark of trees such as oak and

Tuberolachnus

sycamore and are possessed of truly enormous mouthparts such as those of Stomaphis aceris which feeds on sycamore

Stomaphis query aceris

This one, despite its enormous mouthparts, is quite difficult to find as it hides underneath the bark, but luckily it is ant attended so if you see ants scurrying around on the bark of sycamore and disappearing underneath loose flaking bits, it is a good bet that if you gently lever off the loose bark you will find yourself in the presence of this weird-looking creature.

The more I learn about aphids the more I find to marvel at.  Aphids really are remarkable and we know so little about so many of them and their weird and wonderful life styles.

Useful References

Blackman, R.L. & Eastop, V.F. (19 94) Aphids on the World’s TreesAn  Identification and Information Guide.  CABI Publishing. http://www.aphidsonworldsplants.info/index.htm

Evenhuis, H.H. (1968)  The natural control of the apple grass aphid,  Rhopalosiphum insertum, with remarks on the control of apple aphids in general in The Netherlands. Netherlands Journal of Plant Pathology, 74, 106-117  http://link.springer.com/article/10.1007/BF02309501#page-1

Farrell, J.A. & Stufkens, M.W. (1989) Flight activity and cereal host relationships of Rhopalosiphum spp. (Homoptera: Aphididae) in Canterbury New Zealand Journal of Journal of Crop and Horticultural Science, 17, 1-7  http://www.tandfonline.com/doi/abs/10.1080/01140671.1989.10428003

Ivens, A.B.F., Kronauer, D.J.C., Pen, I., Weissing, F.J. & Boomsma, J.J. (2012)  Ants farm subterranean aphids mostly in single clone groups – an example of prudent husbandry for carbohydrates and proteins?  BMC Evolutionary Biology, 12:106 http://link.springer.com/article/10.1186%2F1471-2148-12-106

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