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<i>Dendrobium catenatum</i>, an epiphytic and lithophytic species, suffers frequently from perennial shortage of water in the wild. The molecular mechanisms of this orchid&#8217;s tolerance to abiotic stress, especially drought, remain largely unknown. It is well-known that CBL-interacting protein kinase (CIPKs) proteins play important roles in plant developmental processes, signal transduction, and responses to abiotic stress. To study the CIPKs&#8217; functions for <i>D. catenatum</i>, we first identified 24 CIPK genes from it. We divided them into three subgroups, with varying intron numbers and protein motifs, based on phylogeny analysis. Expression patterns of CIPK family genes in different tissues and in response to either drought or cold stresses suggested <i>DcaCIPK11</i> may be associated with signal transduction and energy metabolism. <i>DcaCIPK9</i>, -<i>14</i>, and -<i>16</i> are predicted to play critical roles during drought treatment specifically. Furthermore, transcript expression abundances of <i>DcaCIPK16</i> showed polar opposites during day and night. Whether under drought treatment or not, <i>DcaCIPK16</i> tended to emphatically express transcript1 during the day and transcript3 at night. This implied that expression of the transcripts might be regulated by circadian rhythm. qRT-PCR analysis also indicated that <i>DcaCIPK3</i>, -<i>8</i>, and -<i>20</i> were strongly influenced by circadian rhythmicity. In contrast with previous studies, for the first time to our knowledge, our study revealed that the major CIPK gene transcript expressed was not always the same and was affected by the biological clock, providing a different perspective on alternative splicing preference.