AR37
Endophyte
What is endophyte?
Endophyte is a naturally occurring fungus whose complete
life cycle occurs within grasses such as perennial ryegrass
and tall fescue. Most New Zealand ryegrass pastures
are infected with endophyte. The endophyte fungus grows
between the cells of the host plant, drawing nutrients
from it but in return conferring resistance to insect
pests, providing some drought tolerance, and protection
from overgrazing – a relationship know as a symbiosis.
In the early 1980s it was discovered that an endophyte
(Standard Endophyte) in perennial ryegrass was responsible
for staggers and heat stress in sheep and cattle. However,
just removing the endophyte wasn’t a solution
in many regions of New Zealand as perennial ryegrass
persistence is poor when endophyte is absent, and these
fungi produce a range of insect-deterring chemical compounds,
which may also affect grazing animals.
Endophytes produce chemical compounds known as alkaloids
some of which confer pest resistance to ryegrass, although
some may also cause animal health problems. Peramine
is a compound that deters feeding and egg laying of
Argentine Stem Weevil, a serious pest affecting ryegrass
persistence and protects against pasture mealy bug,
but has no known effects on animal health when that
ryegrass is grazed. Lolitrem B deters Argentine Stem
Weevil larval feeding but causes Ryegrass Staggers.
Ergovaline gives resistance to African Black Beetle,
but causes heat stress in animals, especially in warm
humid conditions
Novel endophytes are selected endophyte strains that
have a known and understood alkaloid chemical compound
profile. It is known what impact these compounds have
on; insect pests; the agronomic performance and persistence
of the ryegrass plant, and the health; and performance
of animals grazing ryegrass plants containing the novel
endophyte strain. Novel endophytes can be incorporated
into elite cultivar germplasm either by an inoculation
process or by breeding and selecting with plants that
contain the novel endophyte strain. Novel endophytes
are naturally occurring and are not genetically modified
organisms.
Standard Endophyte contains the compounds lolitrem
B, peramine and ergovaline. AR1 novel endophyte contains
peramine which protects against Argentine Stem Weevil
and pasture mealy bug and provides some tolerance to
adult African Black Beetle after the plants are established.
AR1 does not contain lolitrem B or ergovaline and as
such there is enhanced animal performance over Standard
Endophyte. Endo 5 endophyte contains peramine but not
lolitrem B. It has some level of ergovaline production
which allows for agronomic robustness, especially in
areas where African Black Beetle is an issue.
AR37
The most recent novel endophyte, AR37 does not contain
the alkaloid compounds of lolitrem B, peramine, or ergovaline,
but does have a unique set of compounds called epoxy-janthitrems.
Epoxy-janthitrems confer resistance to a wide range
of insect pests (Argentine Stem Weevil larvae, African
Black Beetle adults, root aphid, pasture mealy bug and
porina). Testing to date has shown perennial ryegrass
plants with AR37 to be more persistent and productive
than perennial ryegrass with Standard Endophyte and
with livestock performance levels similar to AR1 and
nil endophyte. While AR37 does not produce the alkaloid
LolitremB it can cause ryegrass staggers in grazing
livestock. In grazing trials at Lincoln the incidence
of ryegrass staggers on pure ryegrass with AR37 has
been less frequent and usually only half as severe as
on ryegrass with standard endophyte. However, these
trials have shown than spasmodically AR37 can cause
serious staggers (Fletcher & Sutherland 2009: Proc
NZ Grassland Assn, 71: 127-33.
How AR37 came about - The search for pest tolerant
endophytes
While AR1 endophyte was shown to have better animal
performance than Standard Endophyte, it was also shown
to have limited pest resistance - it controls only Argentine
Stem Weevil and pasture mealy bug. Reports were soon
received that ryegrasses infected with AR1 were not
persisting in some areas of New Zealand, particularly
where African Black Beetle or root aphid were present.
This reduced persistence was clearly seen where there
were dry conditions and the increased insect pest pressure.
This was because this insect pressure increase the susceptibility
of ryegrass to drought.
As a result of this reduced persistence, AgResearch
set about seeking more pest tolerant endophytes that
did not contain lolitrem B or ergovaline. The new technology
identified was AR37 - a naturally occurring endophyte
strain that deterred a wide range of insects and provides
increased persistency, but did cause ryegrass staggers.
AR37 was developed in direct response to feedback from
farmers and pastoral industries, aiming to improve perennial
ryegrass persistence over that of ryegrasses with AR1,
and even delivering greater persistence than Standard
Endophyte.
The science behind AR37
AR37 was first identified through agronomic trialing
in the mid-1990s. In 11 trials sown in 4 regions of
the country, a range of endophytes were tested against
endophyte free and standard endophyte ryegrass in the
same cultivar with AR37 delivering better ryegrass production
and persistence. On average, these 11 trials showed
that over a 3-4 year period, annual dry matter was 12%
better for AR37-infected ryegrass compared with the
same ryegrass cultivar infected with Standard Endophyte.
Differences were greatest in northern regions of New
Zealand and greater in late summer/ autumn. Further
work with different cultivars sown in other years has
confirmed these results are repeatable.
AR37 effects on insects
Several insect pests attack ryegrass. These include
Argentine Stem Weevil larvae, pasture mealybug, African
Black Beetle (adult), porina, root aphid and grass grub.
All of these insects, except porina and grass grub,
feed on ryegrass and not on clover. Porina and grass
grub feed on all pasture species.
Argentine Stem Weevil - Argentine
stem weevil is a significant pasture pest for nil endophyte
rygrass. It is not uncommon for over 20% of endophyte-free
ryegrass tillers to be damaged by Argentine Stem Weevil
larvae in summer whereas both AR1 and AR37 will reduce
this level to less than 5%.
Pasture Mealy Bug - Pasture mealy
bug can be a major problem in Canterbury and Hawke’s
Bay but is also found in the Marlborough and Nelson
districts, Manawatu, Waikato and Northland. These insects
suck plant sap from around the base of the plant causing
plants to wilt and brown-off in autumn. Both AR1 and
AR37 reduce populations of mealybug to very low levels
(Pennell et al, 2005: NZ Journal of Agricultural Research,
48: 329-37
African Black Beetle - AR37 is also
very effective against African Black Beetle adults resulting
in lower populations of the very damaging root-feeding
larvae in summer and early autumn (Popay & Thom,
2009: Proc NZ Grassland Assn 71: 121-27).
Porina - AR37 is also both deterrent
and toxic to porina larvae in laboratory trials (Jensen
& Popay, 2004: NZ Plant Protection, 57: 323-28).
In a field trial, no porina were found in plots of AR37
whereas endophyte-free and AR1 plots contained 10 larvae/m2
(A.J Popay, Unpublished Data). This field trial result
confirm laboratory evidence of tolerance of ryegrass
with AR37 to porina, compared with AR1 and endophyte
free ryegrasses.
Root aphid - Root aphid is a tiny
insect that sucks the plant sap from roots of grasses
which is present all year. Because it has many generations
in a year it can build up to high numbers when conditions
suit it. AR37 endophyte reduces populations of this
aphid to very low levels, however, this aphid is considered
to be responsible for reduced vigour of ryegrass with
AR1 and Standard Endophyte.
Grass Grub - Grass grub numbers in
AR37 pastures have been noted to be lower in trials
in the Waikato (Popay & Thom, 2009: Proc NZ Grassland
Assn 71: 121-27) and Canterbury (Winchmore) (A.J Popay,
Unpublished data) than AR1 and Standard Endophyte pastures.
While AR37 does not provide resistance to grass grub,
lower numbers indicate there will be less severe pressure
from this pest under AR37 than under AR1 or Standard
Endophyte. This does not mean that AR37 will not be
damaged by grass grub.
Broad Pest Protection - The increases
in persistence and production of ryegrass from AR37
are largely due to the protection it provides against
this broad range of insects. In an outdoor pot trial,
the growth of ryegrass with different endophytes was
compared when plants were treated or not treated with
an insecticide. Insecticide treatment did not increase
the growth of plants with AR37 but markedly increased
the growth of endophyte-free ryegrass and of ryegrass
infected with AR1 and the Standard Endophyte (see graph
below). In the field, protection against African Black
Beetle adults and root aphid are thought to be the main
reasons for the high yield of AR37 ryegrass in field
trials in Hamilton and Kerikeri (Hume et al, 2007: Proc
NZ Grassland Assn, 69: 201-05) and greater persistence
of AR37 ryegrass over AR1 and Standard Endophyte in
a Waikato dairy trial (Popay & Thom, 2009: Proc
NZ Grassland Assn, 71: 121-27).
These graphs show how insecticide treatment of perennial
ryegrass with AR37 does not increase its growth, but
insecticide applications does increase the growth of
endophyte-free ryegrass, and ryegrass infected with
the AR1 and Standard Endophytes.
AR37 – Agronomic Performance
The agronomic trialing of AR37 began in the mid-1990s.
In 11 trials sown over 3-4 years and 4 regions of the
country, a range of endophytes were tested in the same
cultivar (in clover free pastures) against endophyte-free
and the Standard Endophyte. The outstanding feature
of this research was the better production and persistence
that AR37 imparted on the ryegrass (see graph below).
On average, these 11 trials showed that over a 3-4
year period, annual dry matter was 12% better for AR37-infected
perennial ryegrass compared with the same ryegrass infected
with Standard Endophyte. Differences were greatest in
northern regions of New Zealand, and greater in late
summer/autumn.
More recent trials show that the time it takes for
the advantages of AR37 to be seen will differ between
years and regions Hume et al 2007: Proc NZ Grassland
Assn, 69: 201-205
AR37 provides increased ryegrass tiller numbers, root
mass & depth, persistence and yields (12% more than
Standard Endophyte) with more at critical times of the
year.
Animal performance
Milk production
The DairyNZ trial on Scott Farm (Waikato) compared
Commando perennial ryegrass-based pasture infected with
AR37, AR1, Standard (HE) or without endophte (Nil).
The project aimed to measure ryegrass persistence and
pasture yields and to assess any effects of the AR37
endophyte on cow health and milk production. In the
fourth and final milking season white clover was removed
to test the effect of endophyte/ryegrass association
in isolation from any effect on clover content of pastures.
The following bullet points present a summary of results
from the four seasons.
Overall conclusions:
- AR37 ryegrass was clearly more persistent than either
AR1 or Standard (HE) ryegrass. This supports findings
from previous work.
- The greater persistency translated into a reduced
need for renovation of AR37 pastures after the 2008
drought, but in the three years before that time there
was no difference in total pasture yield.
- There was no sign of ryegrass staggers or any other
animal health issues in cows grazing AR1 or AR37 pastures
– even at times when cows grazing HE were affected
by ryegrass staggers.
- With ryegrass/white clover pastures, there was
a trend for slightly lower milksolids (MS) production
over summer from cows grazing AR37 or HE compared
with AR1. With pure ryegrass pastures there were no
significant differences in MS production. These results
suggest that the higher clover content of the AR1
mixed pasture was a contributing factor to the observed
MS production differences.
- Where pasture persistence is the top priority then
AR37 will clearly deliver benefits. Where persistence
of AR1 ryegrass is not a problem, continuing to sow
AR1 is advised. DairyNZ cannot envisage any situation
in which farmers should sow HE ryegrass.
A larger trial in Victoria, Australia on pure perennial
ryegrass pastures has also shown similar milk yield
per cow for AR1 and AR37 over the first and second lactations,
and there have been no incidences of ryegrass staggers
grazing AR37 pastures.
Sheep Production
Animal health and performance responses to grazing
perennial ryegrass infected with AR37 have been measured
in weaned lambs and hoggets over 10 years at AgResearch
Lincoln. Results from the first 6 years were published
in 2005 (Fletcher et al 2005: In: Neotyphodium in Cool
Season Grasses: 229-241). These results are updated
to 2008 in the tables below.
Sheep growth rates over summer and autumn, when endophyte
toxins are likely to be highest, have been better on
AR37 than on the same ryegrass cultivar infected with
the Standard Endophyte containing no clover. Growth
rates on AR37 are similar to the same ryegrass without
endophyte or with the AR1 endophyte (see Table 1). Overall
lambs grazing AR37 have liveweight gains similar to
that of AR1 and nil endophyte and superior to lambs
grazing Standard Endophyte when the average ryegrass
staggers score is less than 2. In grazing trials at
Lincoln the incidence of ryegrass staggers on pure ryegrass
with AR37 has been less frequent and usually only half
as severe as on ryegrass with Standard Endophyte. However,
these trials have shown that spasmodically AR37 can
cause serious staggers.
(Fletcher and Sutherland 2009: Proc NZ Grassland Assn,
71: 127-33).
Epoxy-janthitrems which are produced by ryegrass infected
with AR37, are tremorgenic and can cause ryegrass staggers.
Ryegrass staggers is a neuro-muscular disorder which
is scored on a 0-5 ascending scale, with 5 being very
serious staggers (see Table 2). It should be noted that
there is considerable variation between animals in their
susceptibility to ryegrass staggers.
Apart from ryegrass staggers, animals grazing ryegrass
with AR37 show none of the adverse responses often associated
with grazing ryegrass with Standard Endophyte, such
as increased body temperatures and respiration rates,
more dags and flystrike and lower plasma prolactin concentrations.
| TABLE
2: Ryegrass staggers scoring criteria:
after being driven briskly over 300m |
| 0 |
No
symptoms. |
| 1 |
Slight
muscle spasms around neck, shoulders and flank. |
| 2 |
Severe
muscle spasms and shaking of the head after stress
but no loss of co-ordination. |
| 3 |
As
in 2, but with lack of co-ordination when moving. |
| 4 |
Muscle
tremors beginning early in the run (<30 m), soon
followed by lack of co-ordination resulting in staggering
gait which progresses to the animal falling down.
The animal regains its footing after a short period
of severe spasms and is able to walk off. |
| 5 |
Severe
muscle tremors following short movement (<10
m) or after slight disturbance. The animal collapses
in severe tetanic spasms which may last in excess
of 10 minutes, before the animal attempts to regain
its footing. |
| From
Keogh, R.G. 1973 Induction and prevention of ryegrass
staggers in grazing sheep. New Zealand Journal of
Experimental Agriculture 1: 55-57 |
TABLE
3: Effect of endophytes on mean ryegrass
staggers scores
(0-5 ascending scale) at Lincoln 1999-2008 |
| |
Endophyte |
| |
Standard |
AR37
|
| Summer
|
|
|
| 1999 |
3.5 |
2.3 |
| 2000 |
2.7 |
2.1 |
| 2001* |
2.6 |
1.0 |
| 2002* |
2.8 |
0.0 |
| 2003* |
2.8 |
0.0 |
| 2004 |
3.8 |
3.8 |
| 2005 |
3.8 |
0.0 |
| 2006 |
1.2 |
2.4 |
| 2007* |
2.0 |
0.0 |
| 2008* |
3.0 |
1.4 |
| Mean |
2.8 |
1.3 |
| Autumn |
|
|
| 1999 |
1.0 |
2.0 |
| 2000 |
3.8 |
1.8 |
| 2004 |
3.8 |
0.4 |
| 2005 |
3.8 |
1.9 |
| 2006
trial A |
4.0 |
1.2 |
| 2006
trial B |
4.0 |
0.6 |
| Mean |
3.4 |
1.3 |
| *
summer and autumn grazing combined |
Does AR37 live up to its claims?
The persistence that AR37 ryegrass plants has exhibited
in the recent severe droughts in the North Island of
NZ would indicate that AR37 endophyte is living up to
its claims. Compared to AR1, Standard and nil Endophyte
ryegrasses, ryegrasses containing AR37 have been able
to withstand the drought because of lower pest pressure
- predominantly from Argentine Stem Weevil, African
Black Beetle and root aphid.
No perfect solution - No one-endophyte-fits-all
Currently there is no perfect solution when it comes
to ryegrass endophyte. The decision of which endophyte
farmers choose depends on their region and farm. While
AR1 has been a success story for its high animal performance
compared with Standard Endophyte, its agronomic performance
in some regions of New Zealand can be lower. AR37 endophyte
does provide better persistence and good animal performance
but with a recognized risk of ryegrass staggers. Where
farmers are concerned with their ryegrasses agronomic
performance, AR37 can be a good alternative.
In summary
AR37 is a great example of what can be achieved by
world-leading, New Zealand based science. It was born
out of the need to do better — to build on the
successes of AR1 and offer farmers, dealing with drought
conditions and pest infestations, a more enduring solution.
AR37 is a significant breakthrough for farmers, and
for the New Zealand economy.
|
