Indigenous plant naming and experimentation reveal a plant–insect relationship in New Zealand forests

Drawing from both Indigenous and “Western” scientific knowledge offers the opportunity to better incorporate ecological systems knowledge into conservation science. Here, we demonstrate a “two‐eyed” approach that weaves Indigenous ecological knowledge (IK) with experimental data to provide detailed...

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Bibliographic Details
Published inConservation science and practice Vol. 2; no. 10
Main Authors Wehi, Priscilla M., Brownstein, Gretchen, Morgan‐Richards, Mary
Format Journal Article
LanguageEnglish
Published Chichester, UK John Wiley & Sons, Ltd 01.10.2020
John Wiley & Sons, Inc
Wiley
Subjects
Archives & records
Biodiversity
Butterflies & moths
Carpodetus
Conservation
Ecology
Ecosystems
Experimentation
Forests
Fruits
herbivory
Indigenous knowledge
Indigenous plants
Insects
Knowledge
mātauranga Māori
Names
Native peoples
Native rights
orthopteran
pūriri moth
seed dispersal
seed predation
Seeds
Species
traditional ecological knowledge
tree weta
Trees
New Zealand
North Island
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Summary:Drawing from both Indigenous and “Western” scientific knowledge offers the opportunity to better incorporate ecological systems knowledge into conservation science. Here, we demonstrate a “two‐eyed” approach that weaves Indigenous ecological knowledge (IK) with experimental data to provide detailed and comprehensive information about regional plant–insect interactions in New Zealand forests. We first examined Māori names for a common forest tree, Carpodetus serratus, that suggest a close species interaction between an herbivorous, hole‐dwelling insect, and host trees. We detected consistent regional variation in both Māori names for C. serratus and the plant–insect relationship that reflect Hemideina spp. abundances, mediated by the presence of a wood‐boring moth species. We found that in regions with moths C. serratus trees are home to more wētā than adjacent forest species and that these wētā readily ate C. serratus leaves, fruits and seeds. These findings confirm that a joint IK—experimental approach can stimulate new hypotheses and reveal spatially important ecological patterns. We recommend that conservation managers partner with local IK‐holders to develop two‐eyed seeing approaches that weave IK with quantitative data to assist planning and management. Next steps in our system could include assembling IK species names within each locality to construct a multilayered understanding of local ecosystems through an IK lens.
Bibliography:Funding information
Foundation for Research, Science and Technology; Royal Society of New Zealand
ISSN:2578-4854
2578-4854
DOI:10.1111/csp2.282