eo FT 
GUARANTEE. 
Trees are all budded or grafted from bearing trees. Our nursery stock 
is handled by experienced and careful men; nevertheless, with all our 
caution, mistakes of minor importance may occur. 
Long experience has shown us the urgency of keeping our varieties true 
to name, and hence we are at all times anxious and willing to replace, on 
good and sufficient evidence, all trees that may prove otherwise; neverthe¬ 
less, it is mutually understood and agreed between purchasers and our¬ 
selves that we shall not at any time be liable for any amount greater or 
in excess of the original price of the stock at date of sale. We solicit your 
patronage, but in justice to ourselves cannot accept your orders on any 
other terms. 
NUMBER OF TREES OR PLANTS ON AN ACRE. 
DISTANCE APART. 
Square 
Method 
Equilateral 
Triangle 
Method 
Distance, 1 foot apart each way, No. plants 
43,560 
50,300 
10,890 
12,575 
4,840 
5.889 
2,722 
3,143 
• ‘ Cj “ •» “ 
1,74 2 
2,01 1 
“ 6 
1,210 
1,397 
• * ‘ ‘ 4 4 4 4 
888 
1,025 
44 ^ 44 i 1 tl 
680 
785 
9 “ “ “ 
537 
620 
10 
435 
502 
“ 12 
302 
348 
14 “ 
222 
256 
“ ^ g * * * • “ 
193 
222 
16 
170 
191 
i • i ^ »» u «• 
134 
154 
“ Qjj 44 44 14 
109 
125 
25 
69 
79 
“ 30 
48 
55 
“ 35 
35 
40 
40 
27 
31 
RULE SQUARE METHOD—Multiply the distance in eet bo 
tween the rows by the distance the plants are apart in the rows, and 
the product will be the number of square feet for each plant or hill; 
wnich, divided into the number of feet in an acre (4*3,560.) will give 
the number of plants or trees to an acre 
RULE EQUILATERAL TRIANGLE METHOD-Divide the num¬ 
ber required to the acre "square method ” by the decimal 866. 'The 
result will be the number of plants required to the acre bylthis 
method. See diagram below. 
