IJMEB_2025v15n2

1 Introduction	13
In some of the most water scarce and barren areas,	13
Its adaptability is not small, from the dry and ho	13
This study is not just an empty concept. We select	13
2 Sorghum as a Model Crop for Genetic Diversity St	14
2.1 Sorghum’s botanical characteristics	14
3.2 Strategies for germplasm conservation	16
5.1 Background and importance of African sorghum	17
In East and Central Africa, researchers have studi	19
In Ethiopia, scientists used SNP markers to study	19
5.3 Lessons from other regions	19
Many important insights from the study of African	19
Another point worth noting is the efficient applic	19
6 Utilizing the Genetic Diversity of Sorghum for B	19
6.1 Screening for suitable and excellent traits	19
If you want to cultivate sorghum varieties with be	19
Taking Ethiopia as an example, researchers have fo	19
6.2 Combination of hybrid breeding and molecular-a	19
Hybridization is a common method in breeding. Hybr	19
In recent years, new technologies such as molecula	19
6.3 Real success stories in sorghum breeding	19
Some breeding projects have already used genetic d	19
7.1 Climate-driven selection pressures on germplas	20
7.2 Identification of climate-resilient sorghum va	20
7.3 Strategies for future adaptation	20
8.1 Gaps in existing research and data	20
8.3 Future research priorities	21
2 Distribution and Ecological Environment of Linde	40
2.1 Geographic distribution of Lindera aggregata i	40
2.2 Major phenotypic characteristics of Lindera ag	40
2.3 Relationship between ecological factors and ge	41
3 Genetic Diversity Analysis of Lindera aggregata	41
3.1 Research materials and sampling methods	41
3.2 Molecular marker technologies for genetic dive	41
3.3 Methods for evaluating genetic diversity	42
3.4 Genetic structure analysis	42
4 Screening and Functional Analysis of Superior Ge	42
4.1 Screening of functional genes related to medic	42
4.2 Screening of genes related to stress resistanc	43
4.3 Gene function validation technologies	43
4.4 Candidate gene association analysis	43
5 Screening and Evaluation of Superior Lindera agg	44
5.1 Comprehensive evaluation indicators of germpla	44
5.2 Screening of germplasm with superior multi-tra	44
5.3 Screening of germplasm with superior adaptabil	45
6 Development and Utilization of Lindera aggregata	45
6.1 Breeding and promotion of superior germplasm	45
6.2 Conservation measures for germplasm resources	45
6.3 Molecular breeding based on superior genes	47
7 Challenges and Future Directions	47
7.1 Technical challenges in genetic resource analy	47
7.2 Practical bottlenecks in superior gene applica	47
7.3 Future research directions	47

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