Penikisite, ideally Ba(Mg,Fe,Ca)Al₂(PO₄)₂(OH)₃, is a second occurrence of kulanite.^[5] Both kulanite and penikisite are members of the bjarebyite group.^[4] Minerals in the bjarebyite group have the general formula XY₂Z₂(PO₄)₃(OH)₃ where X=Ba, Y=Mg,Fe²⁺,Mn²⁺, and Z=Al,Fe³⁺.^[8] Penikisite was found in a Yukon phosphate deposit near Rapid Creek. The mineral, along with kulanite, occurs in an iron-formation.^[9] In these iron-formations, Mg-rich zones were discovered and named penikisite in honor of Gunar Penikis who discovered these phosphate occurrences with Alan Kulan.^[5]

The chemical formula of penikisite is Ba(Mg,Fe,Ca)Al₂(PO₄)₂(OH)₃.^[5] Mandarino and Sturman analyzed two penikisite samples and eight kulanite samples using an AMX electron miscroprobe (1977). Their study showed weight percent oxides, including H₂O, that help determine what the formula is for penikisite and kulanite. Members of the bjarebyite group have the general formula XY₂Z₂(PO₄)₃(OH)₃ where X=Ba, Y=Mg,Fe(2+),Mn(2+), and Z=Al,Fe³⁺.^[8] Accompanying penikisite in this group are as follows: bjarebyite, ideally BaMn²⁺₂Al₂(PO₄)₃(OH)₃, perloffite, ideally BaMn²⁺₂Fe³⁺₂(PO₄)₃(OH)₃, kulanite, BaFe²⁺₂Al₂(PO₄)₃(OH)₃, and johntomaite, ideally BaFe²⁺₂Fe³⁺₂(PO₄)₃(OH)₃.^[4] These minerals are identified when Ba in the X position is one of the most abundant elements in their composition along with being phosphates.^[8]

Penikisite ranges from blue to green with a vitreous luster and, when rubbed along a streak plate, can be pale green to white. Depending on the thickness of the sample, the mineral can be either transparent or translucent.^[5] Penikisite is monoclinic with space group P2₁/m.^[3] The cell dimensions of this mineral were calculated by Mandarino and Sturman (1977) by least-squares refinement of the X-ray powder diffraction data to be: a 8.999, b 12.069, c 4.921Å. The mineral is non-fluorescent under short- and long-waves. It has a harness of about 4 and a density of 3.79(2) g/cm³. There are two fair to good cleavages on {010} and {100}. Penikisite is biaxial (+) with nα 1.684(2), nβ 1.688(2), nγ 1.705(2). The 2V(γ) calculation is 56° and the 2V measurement is 52.2°. The pleochroism for penikisite is X grass-green, Y blue-green, Z pale pink. The absorption is X~Y>Z.^[5]

In recent years, Rapid Creek, in the northeastern corner of Yukon Territory, has become more popular in the mineralogist community. This is because of the large deposit of phosphate minerals that have been discovered in the area.^[9] Texturally, the rocks of Rapid Creek are similar to other Phanerozoic phosphate and iron deposits; they are composed of pellets and granules, detrital quarts grains, skeletal fragments, and siderite mud matrix.^[9] Discovered in phosphate-ironstones that crop out near Rapid Creek, penikisite and kulanite occurs in fractures in a sideritic iron-formation.^[8]