Warren Chinn scite author profile

The South Island of New Zealand offers unique opportunities to study insect evolution due to long-term physical isolation, recent alpine habitats and high levels of biotic endemism. Using DNA sequence data from cytochrome oxidase subunit 1, we investigated the phylogeographical pattern among 10 endemic cockroach species within the genus Celatoblatta Johns (Blattidae). We tested the hypothesis that an ancestral cockroach species underwent rapid speciation in response to major climatic differentiation induced by mountain building. Results suggest that speciation was a twofold process, with an interspecific radiation of Pliocene/Pleistocene age followed by intraspecific diversification during the mid Pleistocene. Average genetic distance (maximum likelihood GTR + I + Gamma) was 9.17%, with a maximum of 14.5%. Data revealed eight deep well-supported branches, each with terminal clades. Six clades were differentiated according to morphological species, while the seventh was composed of three sympatric species. We consider the latter to be a phylogenetic species, possibly as a result of hybridization within a defined geographical area. This finding seriously challenges species distinctions for these three cockroach species. Correlation between genetic distances and a Climate Similarity Index (CSI) was negative, suggesting that species found in similar habitats are also genetically closely related. A Mantel test on within-clade genetic distances vs. linear geographical distance was positive, suggesting allopatric isolation for those haplotypes. We present a model of speciation for South Island Celatoblatta.

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Southern Alps equilibrium line altitudes: four decades of observations show coherent glacier–climate responses and a rising snowline trend

Lorrey

Vargo

Purdie

et al. 2022

J. Glaciol.

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An end of summer snowline (EOSS) photographic dataset for Aotearoa New Zealand contains over four decades of equilibrium line altitude (ELA) observations for more than 50 index glaciers. This dataset provides an opportunity to create a climatological ELA reference series that has several applications. Our work screened out EOSS sites that had low temporal coverage and also removed limited observations when the official survey did not take place. Snowline data from 41 of 50 glaciers in the EOSS dataset were retained and included in a normalised master snowline series that spans 1977–2020. Application of the regionally representative normalised master snowline series in monthly and seasonally resolved climate response function analyses showed consistently strong relationships with austral warm-season temperatures for land-based stations west of the Southern Alps and the central Tasman Sea. There is a trend towards higher regional snowlines since the 1990s that has been steepening in recent decades. If contemporary decadal normalised master snowline series trends are maintained, the average Southern Alps snowline elevation will be displaced at least 200 m higher than normal by the 2025–2034 decade. More frequent extremely high snowlines are expected to drive more extreme cumulative mass-balance losses that will reduce the glacierised area of Aotearoa New Zealand.

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Tussock moth species arriving on imported used vehicles determined by DNA analysis

Armstrong¹,

McHugh²,

Chinn³

et al. 2003

NZPP

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Egg masses of tussock moths are frequently intercepted at the border most commonly on imported used vehicles These have been assumed to be of the gypsy moth Lymantria dispar (Lepidoptera Lymantriidae) However there are six other Lymantriid pest species with similar indiscriminate oviposition and overwintering behaviour that are considered to have the potential to reach New Zealand Unfortunately there is no accurate record of what arrives as early immature life stages of tussock moths cannot be reliably identified morphologically to the species level A molecular diagnostic system was therefore adopted for the identification of all interceptions During the period 20002002 151 specimens were intercepted on used vehicles from Japan and one on a vehicle from the USA Of these 82 were identified as gypsy moth 2 were other highrisk species (nun moth L monacha and white spotted tussock moth Orgyia thyellina) 6 were unknown species and 10 had no detectable DNA This information is interpreted with respect to the quarantine systems in place and the practical role of molecular tools for biosecurity

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Tracking the snow line: Responses to climate change by New Zealand alpine invertebrates

Chinn¹,

Chinn²

2020

Arctic, Antarctic, and Alpine Research

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We review and test an ecological paradigm that asserts that alpine invertebrate communities may shift upslope with climate warming. Our model couples the end of summer snow line (EOSS) elevation with invertebrate populations in New Zealand's Southern Alps, using a forty-year data set, from fifty index glaciers. We show the snow line has risen an average 3.7 m a −1. This is equivalent to raising alpine isotherms by almost 150 m and presents alpine biotic populations with four possible scenarios: upslope tracking, stasis, horizontal dispersal, or local adaptation. We characterize the alpine invertebrate biota (AIB) and present two case studies that show that high-elevation taxa have tracked the snow line within a narrow range (<20 m), whereas lower elevation taxa have potentially shifted by tens of meters. Relationships between the EOSS and Southern Oscillation Index (SOI) are investigated because precipitation and temperature influence snow line elevation by 25 percent. We also highlight the utility of invertebrates for monitoring climate change impacts on alpine ecosystems with a proposal for alpine climate monitoring units (CMUs), complementing an existing network of ecological management units (EMUs). We include an annotated list of New Zealand alpine invertebrates as potential indicators of climate change.

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Diet, population structure and breeding of Rattus rattus L. in South Island beech forest

Clapperton¹,

Bangladesh.²,

Maddigan³

et al. 2019

NZJE

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The diet, population structure and breeding of ship rats (Rattus rattus L.) from Fiordland National Park were assessed from measurements and gut sample analysis of 248 rats trapped between March 2009 and March 2010, following a mast beech seedfall. They consumed many lepidopteran larvae but fewer weta and more vegetative plant matter than in other habitats, as well as beech seed. Birds and mice made up only a relatively small proportion of the diet. A lizard was also confirmed as a prey item of R. rattus, for the first time in New Zealand. The population included a high proportion of young rats and females that were breeding at an early age. A high percentage of females in breeding condition in each season, high uterine scar counts and consistent litter sizes throughout the year indicate high fecundity and year-round breeding. This breeding cycle is consistent with an ample food supply being available for rodents promoting a rat population irruption, which in turn may increase the predation pressure on native biodiversity.

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Warren Chinn

Adaptive radiation within New Zealand endemic species of the cockroach genus Celatoblatta Johns (Blattidae): a response to Plio‐Pleistocene mountain building and climate change

Southern Alps equilibrium line altitudes: four decades of observations show coherent glacier–climate responses and a rising snowline trend

Tussock moth species arriving on imported used vehicles determined by DNA analysis

Tracking the snow line: Responses to climate change by New Zealand alpine invertebrates

Diet, population structure and breeding of Rattus rattus L. in South Island beech forest

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