2024 : 11 : 21
Mostafa Maroufpoor

Mostafa Maroufpoor

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId: 36614405000
HIndex:
Faculty: Faculty of Agriculture
Address:
Phone: 7224846

Research

Title
Advances in theory, data analysis, and application of the age-stage, two-sex life table for demographic research, biological control, and pest management
Type
JournalPaper
Keywords
group-reared life table • bootstrap-match technique • set theory • multinomial theorem • Cartesian paired test • computer simulation • predation • infertile bootstrap sample
Year
2023
Journal Entomologia Generalis
DOI
Researchers Hsin Chi ، Aurang Kavousi ، Gholamhossain Gharekhani ، Remzi Atlihan ، Mehmet Salih Özgökçe ، Masood Amir-Maaf ، Jalal Shirazi ، Roya Taghizadeh ، Mostafa Maroufpoor ، Tetsuo Gotoh ، Mohammad Shaef Ullah ، Carezza Botto-Mahan ، Xinxian Zheng ، Yong-Yu Xu ، Raul Narciso C. Guedes ، Giovanni Benelli ، Prapassorn Bussaman ، Marcela Inés Schneider ، PAVEL SASKA ، Farman Ullah ، Nicolas Desneux ، Ali Guncan

Abstract

This paper reviews and introduces innovative research pertaining to the age-stage, two-sex life table. The main topics discussed are: (1) Analysis of data involving group-reared life table studies. We address the rationale behind the data analysis used when constructing a group-reared life table. Proper analysis of grouped-reared life table data enables the collection of realistic and applicable data for ecological studies, devising efficient mass-rearing programs and formulating pest management routines using time- and labor-saving group-rearing methods. (2) The bootstrap-match technique. This novel technique is applicable to those instances when constructing a complete life table involves collecting the immature independently from the adult data. (3) Application of the set theory in life table research. This procedure enables a mathematical description of the population structure and bootstrap samples. (4) Application of the multinomial theorem. Using the multinomial theorem enables calculation of the exact probability of bootstrap samples. (5) Inclusion of infertile bootstrap samples. Because it is impossible to calculate the intrinsic rates of increase for infertile samples, they are normally omitted in life table analysis. Inclusion of these infertile bootstrap samples produces an unbiased life table analysis. (6) The Cartesian product. The Cartesian product of two sets produces the complete coverage of all possible differences. We compared the paired bootstrap test, the Cartesian paired test based on bootstrap results, and the Cartesian paired test based on the multinomial theorem. (7) Integration of life table data with predation data. This procedure, which is especially relevant to biological control programs, enables a comprehensive study of the predator-prey relationship. (8) Computer simulation based on life tables. Population projection based on the age-stage, two-sex life table not only provides the means to predict the dynamics of stage structures of a given pest population, but also provides an insight into the dynamics of predation capacity of the predator population. (9) Problems in life table research. Each of the subjects discussed is crucial for the theoretical advancement and practical applications of scientific demographic research.