As we are aware that sea ice production, heat uptake, ocean circulation patterns and density are efficiently impacted by ocean salinity, therefore it plays a vital role in the earth climate system. Thus, in order to prevent agriculture, forest and public safety, the accurate and more reliable estimation of climate becomes particularly important. Hence, the ocean salinity must be included in the ocean climate change models. This paper proposes an integer order climate change model for the prediction of climate by incorporating the salinity feature. This strengthens the model dependability and yields more precise findings on the relationship between depth and time in the setting of climate change. Also, the complex and constantly shifting features of marine ecosystems are largely determined by the interaction between salinity and temperature. The numerical solution of the model is obtained by employing a modified Laplace Adomian decomposition method. The estimated results are validated by the comprehensive comparisons.