Wild Foods Are Positively Associated with Diet Diversity and Child Growth in a Protected Forest Area of Madagascar

Lora Iannotti, Tabita Randrianarivony, Armand Randrianasolo, Fortunat Rakotoarivony, Tefy Andriamihajarivo, Mia LaBrier, Emmanuel Gyimah, Sydney Vie, Andrea Nunez-Garcia, Robbie Hart

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Background: Concurrent losses in biodiversity and human dietary diversity are evident in Madagascar and across many food systems globally. Wild food harvest can mitigate nutrition insecurities but may also pose species conservation concerns. Objectives: This study aimed to examine the association of wild plant and animal species consumption during hunger season with diet diversity and child growth near the Alandraza-Agnalavelo protected forest in Southwestern Madagascar. Second, we studied the conservation status of the consumed wild plants. Methods: Methods from public health nutrition (24-h recall dietary intake, anthropometry using World Health Organization [WHO] Growth Standards), ethnobotany, and forest ecology (ecologic studies of abundance, habitat preference, associated species, food chemistry assays, and species richness) were applied. Results: Malnutrition in children (n = 305) was highly prevalent: stunting (32.3%); wasting (18.8%); and low-dietary diversity (4% meeting WHO minimum dietary diversity threshold). Animal foods were consumed in small quantities, providing <10% of Dietary Reference Intakes for all limiting nutrients. Twenty-two wild plant species were consumed during hunger season, prominently tubers (Dioscoreaceae), and leafy greens (Asteraceae, Blechnaceae, Portulacaceae, and Solanaceae). Eight of the 9 target species were identified as abundant and “Least Concern,” whereas Amorphophollus taurostigma was abundant and “Vulnerable.” Regression modeling showed wild food consumption was associated with an increased household dietary diversity score [β = 0.29 (0.06 standard error); P < 0.001], and total wild animal foods positively correlated with height-for-age Z score [β = 0.14 (0.07 standard error); P = 0.04]. Conclusions: Wild plant and animal foods may be an important element of food systems to support human nutrition while maintaining ecosystem viability.

Original languageEnglish
Article number102101
JournalCurrent Developments in Nutrition
Volume8
Issue number4
DOIs
StatePublished - Apr 2024

Keywords

  • child growth
  • diet diversity
  • protected forest
  • rural food systems
  • wild foods

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