Arabidopsis contains hundreds of ribosomal DNA copies organised within the nucleolar organising regions (NORs) in chromosomes 2 and 4. There are four major types of variants of rDNA, VAR1-4, based on the polymorphisms of 3' external transcribed sequences and these are variably expressed during plant development. We created a mutant by the CRISPR-Cas9-mediated excision of ~25 nt from only the copies of NOR4 ribosomal DNA, obtaining mosaic mutational events on ~5% of all rDNA copies. The excised region consist of P-loop and Helix-82 region of 25S rRNA. The mutation led to allelic, dosage-dependent defects marked by lateral root inhibition, reduced size, and pointy leaves typical of defective ribosomal function. The mutation in NOR4 led to dosage compensation from the NOR2 copies, marked by its associated single-nucleotide polymorphisms and, thus, resulted in an altered rRNA sub-population. Furthermore, it caused rRNA maturation defects specifically in the minor pathway characterised by 32S pre-rRNA accumulation. The mutated rRNAs were not incorporated into the translating ribosomes and, thus, the accompanying elevated autophagic flux was likely to be related to ribophagy.