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Concatenated alignment for Stephanosporaceae Phylogenetic tree
Concatenated alignment (ITS, LSU, tef1) for 126 OTUS analysed for Bayesian phylogenetic tree in article: Teresa Lebel, Michael A. Castellano, Ross E. Beever, Cryptic diversity... -
NZ Lizards
This resource is no longer available. The NZ Lizards Database is (was) a searchable online system that provides access to a wealth of information describing the lizard species... -
Phylogenetic Trees - Clitopilus Etc
Data for Maximum Likelihood phylogenetic trees published in: New species and combinations of some New Zealand agarics belonging to Clitopilus, Lyophyllum, Gerhardtia, Clitocybe,... -
Multiple capture trap data
Data and spatial model for assessing effectiveness of using multiple and single capture traps. The data support an article in PLoS ONE: Warburton, B., & Gormley, A. M.... -
Geneious Plugin - Metadata Importer
The Metadata Importer (MI) is a plugin component for Geneious versions 9 and later. The MI is intended to facilitate the importation of meta-data associated with sequenced... -
Allometric power laws in NZ mountain beech forests
Using above-ground biomass to measure the biomass of individual trees, we tested three power laws (Taylor's law; density-mass allometry; and variance-mass allometry) using 10... -
Livestock as sentinels for wildlife disease
Pseudo-code for a model written in Python that uses livestock disease surveillance data to make inference on the disease status of sympatric or adjacent living wildlife. -
Data from "The effects of one-off aerial 1080 possum-control operations on co...
Overview 1080 was applied to two sites in 2012, one on the East Coast of the South Island and the other on the West Coast. Each site had a paired no-1080 site nearby. Birds and... -
Pygmy Myosotis morphological characters
Dataset of morphological characters measured on pygmy Myosotis and other bracteate-prostrate Myosotis species. -
Biodiversity Uncertainty
Data and R scripts used in paper: Mason NWH, Holdaway RJ, Richardson SJ. Incorporating measurement error in testing for changes in biodiversity. Methods Ecol Evol.... -
Bio-economic optimisation of surveillance to confirm broadscale eradications ...
Python computer code for a 2-stage bio-economic model to identify optimal cost-efficient surveillance strategies for assessing progress and ultimately declaring success of... -
NZAC Litter card - example 1
Example of card to score variables for the Litterbook