factors influencing tick-borne pathogen emergence and ... · factors influencing tick-borne...
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![Page 1: Factors influencing tick-borne pathogen emergence and ... · Factors influencing tick-borne pathogen emergence and diversity. Take home 1. Tick-borne diseases are expanding for reasons](https://reader033.vdocuments.site/reader033/viewer/2022053009/5f0cfc657e708231d4381c80/html5/thumbnails/1.jpg)
Maria Diuk-WasserColumbia University
July 13, 2015
NCAR/CDC Climate and vector-borne disease workshop
Factors influencing tick-borne
pathogen emergence and diversity
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Take home
1. Tick-borne diseases are expanding for reasons beyond climate
2. Ticks are not mosquitoes
3. Climatic limits and effects of seasonality on tick and pathogen life cycles
4. Beyond Lyme: co-emergence of multiple pathogens
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Tick-borne diseases are expanding for
reasons beyond climate
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Lyme disease is expanding
Incidence
2012
CT 46.0
MA 51.1
ME 66.6
NJ 30.8
NY 10.4
PA 32.5
Incidence
2012
MN 16.9
WI 23.9
CDC
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Emerging tick-borne pathogens in the US
Diuk-Wasser, JME, 2006
Borrelia burgdorferi
Babesia microti
Anaplasma phagocytophilum
Deer tick virus
Borrelia miyamotoi
Ehrlichia muris- like (EML)
Ixodes
scapularis
Dermacentor
variabilis
Amblyomma
americanum
Ehrlichia chaffeensis
Ehrlichia ewingii
Francisella tularensis
Rickettsia rickettsii
Francisella tularensis
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REFORESTATION, DEER, & LYME DISEASE IN
CONNECTICUT
% F
OR
EST C
OV
ER
DEER
X 1
00
0
30
10
60
40
20
70
50 LD C
ASES X
100
0
6
2
12
8
4
18
10
14
16
DEER
FOREST
LD
Durland Fish
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2005
0.1 to 4.9 5 to 9.9 10 to 24.9 25 to 49.9 50 to 99.9 100+
Cases per 100,000 population
in Virginia, 2005 & 2011 Lyme disease is also increasing in the South: Incidence
in Virginia, 2005 & 2012
2012
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Ticks are not mosquitoes
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eggs
adults
larvae
nymphs
Ixodes scapularis life cycle and tick-borne
pathogen transmission
Ixodes
scapularis
Borrelia burgdorferi
Babesia microti
Anaplasma phagocytophilum
Powassan virus
Borrelia miyamotoi
Ehrlichia muris-like
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SUMMER FALL WINTER SPRING SUMMER FALL WINTER SPRING
Tick life cycle
LARVAE C1
ADULTS C1
% A
CT
IVIT
Y
100
0
YEAR 1YEAR 1 YEAR 2
LARVAE C2
NYMPHS C1ADULTS C2 NYMPHS C2
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Effects on tick life cycle
Climate limits and seasonality
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Environmental factors limiting tick distribution
High vapor pressure deficit reduces tick survival
High vapor pressure reduces host seeking activity and thus the likelihood of finding a host
To seek or not to seek: to die of hunger or of thirst
Low temperature can kill overwintering ticks
Low temperature can slow down tick development
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SUMMER FALL WINTER SPRING SUMMER FALL WINTER SPRING
Larvae overwinter as larvae when they can’t
develop fast enough or it gets cold too fast
LARVAE C1
ADULTS C1
% A
CT
IVIT
Y
100
0
YEAR 1YEAR 1 YEAR 2
LARVAE C2
NYMPHS C1ADULTS C2 NYMPHS C2
YEAR 3
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Risk map Ixodes scapularis range expansion into
Canada with climate change
Ogden et al. 2008
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Climate-based Lyme disease risk map
5332 I. scapularis nymphs
304 sites - 44 repeats
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Environmental predictors for the
density of nymphs
• Forest density and fragmentation
• Soil texture
Climate
• Maximum temperature
• Minimum temperature
• Vapor pressure deficit
• Precipitation
Summarized by:
Monthly mean over 20 years
Fourier transformed variables over 57 years
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U.S. meteorological surfaces
Terrestrial Observation and Prediction System
Nemani et al., 2003 and 2007
Jolly et al., 2005;
Thornton et al., 1999
U.S. meteorological surfaces interpolated daily at 8 km spatial resolution from
observations at more than 3,000 meteorological stations.
http://ecocast.arc.nasa.gov/
Maximum Temp
Minimum Temp
Precipitation
Vapor Pressure Deficit
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amplitude
phase
Temporal Fourier analyses
Set of orthogonal variables that capture the seasonality
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Amplitude of the annual cycle of maximum
temperature (°C)
Amplitude of the annual cycle
of maximum temperature (°C)
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Predictive model for the Density of Nymphs (DON)
Estimate Std. Error Prob>t
Zero-inflated
Elevation 3.79 0.93 <0.001
Vapor pressure deficit, monthly mean 4.89 1.31 <0.001
Maximum Temp, annual amplitude2 1.23 0.50 <0.05
Minimum Temp, annual phase2 2.42 0.65 <0.001
Negative Binomial
Autocovariate term 0.44 0.10 <0.0001
NDVI, annual amplitude2 0.33 0.20 0.10
Sites correctly classified as positive/negative: 83%
Sensitivity: 89%
Specificity: 82%.
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DIN is associated with the risk of Lyme disease
in the United States (2004-2007)
Lyme disease incidence/100,000 peopleDensity of Infected I. scapularis nymphs
Pepin et al., AJTMH, 2012Diuk-Wasser et al., AJTMH, 2012
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Effect on pathogen life cycle and diversity
Seasonality
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Babesia microti: A malaria-like parasite transmitted by
Ixodes scapularis
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Geoographic spread of babesiosis lags behind Lyme
disease
Katherine Walter
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0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
7 14 21 28 42
Infe
ctio
n P
revale
nce
Days since infection
Bm only
BL206 only
B348 only
Invasive B. burgdorferi
Non-invasive B. burgdorferi
Babesia microti
Pathogens other than B. burgdorferi as well as
B. burgdorferi non-invasive strains are short
lived in white-footed mice
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SUMMER FALL WINTER SPRING SUMMER FALL WINTER SPRING
Asynchronous feeding
NYMPHS
Bab
%
Tic
k a
cti
vit
y
100
0
YEAR 1YEAR 1 YEAR 2
LARVAE t+1
Invasive Borrelia
Non-invasive Borrelia/Babesia
Synchronous feeding
%
tran
sm
iss
ion
to
tic
ks
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Parallel between persistence in white-footed
mice and invasiveness in humans
Invasive B.
burgdorferi
Non-invasive B.
burgdorferi
Human EM (non-invasive)
Ticks
Human blood (invasive) Seinost et al. 1999P
revale
nce
Time
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Gatewood et al. 2009, AEM
Prediction: Asynchronous tick feeding = higher frequency of
mouse persistent and human invasive Bb genotypes
Nymphal/larval synchrony Frequency of invasive genotypes
Does this explain why there is higher incidence of Lyme disease in the Northeast than
the Midwest?
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Frequency of non invasive genotypes
Pepin et al., AJTMH, 2012
Frequency of B. burgdorferi genotypes influences Lyme
disease incidence more than the density of infected nymphs
Lym
e incid
ence
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Modeling pathogen establishment accounting for tick
seasonality and pathogen dynamicsP
erc
ent
nym
phal fe
edin
g
Invasive B. burgdorferi
Non-invasive B. burgdorferi
B. microti
Dunn et al. 2013
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Global sensitivity analysis
sN = larval survivorship to
feeding nymph
c = probability of finding a
competent host
Timing of peak and duration of
infectivity in mice, with strong
interaction with phenology
parameters
Most influential parameters
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B. burgdorferi can persist in more ‘stringent’
ecological conditions than B. microti
sN = larval survivorship
c = probability of finding a competent host
Babesia microti
Borrelia burgdorferi
R0 curves
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Conclusions
Vapor pressure deficit is a limiting factor for I. scapularisdistribution and can regulate host-seeking behavior.
Lower temperatures may limit I. scapularis distribution by reducing overwintering survivorship and lengthening tick life cycle.
The frequency of invasive vs non invasive B. burgdorferigenotypes is associated with tick phenology, in turn influenced by temperature seasonality.
Climatic conditions in the Upper Midwest and certain locations/years in the Northeast favor the transmission of I. scapularis-borne pathogens with short lived infections in the host, such as B. microti and Powassan virus. Emergence hot spot?
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Research needs: Tick natural history
‘To seek or not to seek’
What drives the timing of tick developmental diapause: photoperiod vs temperature?
Genetically determined or plastic?
What’s a tick’s optimal foraging behavior?
Based on:
Differential temperature and vapor pressure deficit in the air and leaf litter
Probability of encountering a host: host and tick abundance and host movement
Tick fat reserves
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Thanks!
Yale School of Public HealthDurland FishPeter Krause
Anne GatewoodTanner SteevesCorrine Folsom-O’Keefe
Sarah StatesGiovanna CarpiKatharine Walter
Lindsay RollendStephen BentMohammed SalimCasey FinchGwenael Vourc’h
Sahar Usmani-Brown
>20 MPh and undergraduate students
>100 Field assistants
Michigan State UniversityJean TsaoSarah HamerGraham Hickling
University of IllinoisUriel KitronRoberto CortinasMichelle Rowland
U. Calif Irvine. Alan Barbour
Yale Center for Earth ObservationRoland GeerkenLarry BonneauRonald Smith
Yale EPH Biostatistics DivisionPaul CisloTheodore HolfordYongtao Guan
NASA Ames - Forrest Melton
Royal MelbourneInstitute of TechnologyStephen DavisJessica Dunn
FUNDERS
Colorado State UniversityKim Pepin
Royal Melbourne Institute of TechnologyStephen DavisJessica Dunn