Hierarchical classification learning, which organizes data categories into a hierarchical structure, is an effective approach for large-scale classification tasks. The high dimensionality of data feature space, represented in hierarchical class structures, is one of the main research challenges. In addition, the class hierarchy often introduces imbalanced class distributions and causes overfitting. In this paper, we propose a feature selection method based on label distribution learning to address the above challenges. The crux is to alleviate the class imbalance problem and learn a discriminative feature subset for hierarchical classification process. Due to correlation between different class categories in the hierarchical tree structure, sibling categories can provide additional supervisory information for each learning sub tasks, which, in turn, alleviates the problem of under-sampling of minority categories. Therefore, we transform hierarchical labels to a hierarchical label distribution to represent this correlation. After that, a discriminative feature subset is selected recursively, by the common features and label-specific feature constraints, to ensure that downstream classification tasks can achieve the best performance. Experiments and comparisons, using seven well-established feature selection algorithms on six real data sets with different degrees of imbalance, demonstrate the superiority of the proposed method.