본 연구에서는 국내 미기록종인 Euandrolaelaps yamauchii (Ishikawa, 1982)를 채집하여 해당종의 새로운 분포지로서 기록하였다. 또한, Euandrolaelaps yamauchii (Ishikawa)의 완모식표본과 한국산 표본을 함께 비교검경하여 개정된 분류학적 진단정보를 제시하였으며, 검경에 사용 한 현미경사진 및 도판과 국내에 보고된 Euandrolaelaps속에 대한 분류키도 함께 제공하였다.

본 연구에서는 한국산 혹좀벌속(신칭)의 미기록종인 얼룩혹좀벌(신칭)을 국내에 처음으로 보고한다. 한국산 혹좀벌속(신칭)의 목록과 검색 표, 얼룩혹좀벌(신칭)의 기재 및 주요 형질 사진, S. biguttata와 S. flavicollis, S. variegata의 외형과 날개 사진을 제공한다.

꼬마꽃벌과의 2종, Lasioglossum (Ctenonomia) kumejimense (Matsumura and Uchida, 1926) and Lasioglossum (Pyghalictus) politum pekingense Blüthgen, 1925이 한국에서 처음 확인되었다. 이 종의 암컷의 진단 특징과 분포, 형태적 형질 도해, 한국산 줄꼬마꽃벌속의 아속에 대한 분류키를 수록한다.

Background: South Korea has recently faced record-high temperatures, which have adversely affected dairy production. Holstein cows, the primary dairy breed globally, are particularly sensitive to heat stress. In contrast, Jersey cows have shown greater heat tolerance, as demonstrated by phenotypic studies. Methods: We investigated physiological and molecular responses to heat stress in Holstein and Jersey cows by measuring rectal temperature, milk yield, and average daily gain, confirming Holstein cows’ greater vulnerability. To explore molecular mechanisms, we analyzed circulating microRNA profiles from whole blood samples collected under heat stress and normal conditions using microRNA-sequencing. Differential expression patterns were compared between the two breeds to identify biological pathways associated with heat stress. Results: Four microRNAs (bta-miR-20b, bta-miR-1246, bta-miR-2284x, and bta-miR- 2284y) were significantly differentially expressed in both breeds under heat stress (|FC| ≥ 2, p < 0.05). Notably, bta-miR-20b and bta-miR-1246 were linked to corpus luteum function and progesterone biosynthesis, while bta-miR-2284x and bta-miR- 2284y were associated with immune responses. A comparison of 11 potential heat stress-related microRNAs identified in previous studies of Holstein cows revealed consistent expression trends in Jersey cows, albeit with lower fold changes, suggesting their superior heat resilience. Conclusions: Our study highlights the physiological and microRNA-based differences in heat stress responses between Holstein and Jersey cows. Jersey cows exhibited greater resilience, supported by more stable microRNA expression profiles and improved heat stress indicators, making them a promising breed for dairy production in increasingly hot climates.