Toner

What is claimed is: 1 . A toner comprising a toner particle comprising a toner base particle, and an organosilicon polymer partially-coating the toner base particle, wherein, when S1 (μm 2 ) is a total area of a non-coated part which is not coated with the organosilicon polymer on an outermost surface of the toner particle, S2 (μm 2 ) is a total area of a coated part which is coated with the organosilicon polymer on the outermost surface of the toner particle, and SA1 (μm 2 ) is a total of areas of non-coated part domains each of which has an area of not more than 0.10 μm 2 , in non-coated part domains D1, formulae (1) and (2) below are satisfied: 0.45≤[ S 2/( S 1+ S 2)]≤0.65  (1) ( SA 1/ S 1)≥0.50  (2) where, in scanning electron microscope observation of the outermost surface of the toner particle, when a backscattered electron image of the 1.5-μm square on the outermost surface of the toner particle is obtained, brightness of each pixels constituting the backscattered electron image is assigned to one of 256 gradations from brightness 0 to 255, and the brightness is plotted on a horizontal axis and the number of pixels is plotted on a vertical axis to obtain a brightness histogram, two local maximum values P1 and P2, and a local minimum value V between the P1 and the P2 occur in the brightness histogram, and brightness yielding the local maximum value P1 is less than brightness yielding the local maximum value P2, a peak containing the P2 is a peak derived from the coated part, while a peak containing the P1 is a peak derived from the non-coated part, and in a binarized image obtained by binarizing the backscattered electron image into a region W derived from the peak containing the P1 and a region B derived from the peak containing the P2, with the local minimum value V being a boundary between the regions, the non-coated part domains D1 are domains derived from the non-coated part, while coated part domains D2 are domains derived from the coated part, and the S1 (μm 2 ) is a total of areas of the non-coated part domains D1, and the S2 (μm 2 ) is a total of areas of the coated part domains D2. 2 . The toner according to claim 1 , wherein when SB1 (μm 2 ) is a total of areas of non-coated part domains each of which has an area of not less than 0.50 μm 2 , in the non-coated part domains D1, formula (5) below is satisfied: ( SB 1/ S 1)≤0.20  (5). 3 . The toner according to claim 1 , wherein when SC1 (μm 2 ) is a total of areas of non-coated part domains each of which has an area of not more than 0.01 μm 2 , in the non-coated part domains D1, formula (6) below is satisfied: ( SA 1− SC 1)/ S 1≥0.35  (6). 4 . The toner according to claim 1 , wherein a content of the organosilicon polymer in the toner particle is 2.00 to 5.00 mass %. 5 . The toner according to claim 1 , wherein the organosilicon polymer has a structure of alternately binding silicon atoms and oxygen atoms, and the organosilicon polymer has a T3 unit structure represented by formula (7) below: R a —SiO 3/2   (7) where R a is a C 1-6 alkyl or phenyl group. 6 . The toner according to claim 5 , wherein in 29 Si-NMR measurement of the organosilicon polymer, a ratio of an area of peaks derived from silicon having the T3 unit structure relative to a total area of peaks derived from all silicon elements contained in the organosilicon polymer is 0.60 to 0.90.