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Forest Clearance in the Stone Age
During the Neolithic period the hunters of northern Europe gradually became farmers. Using their tools and methods, Danish investigator have re-enacted how they cleared the land and cultivated their crom
by Johannes Iversen
Perhaps the greatest single step forward in the history of mankind was the transition from hunting to agriculture. In the Mesolithic Age men lived by the spear, the bow and the fishing net; in the Neolithic Age they became farmers. The change came independently at different times in diverse parts of the world. Just how and when men turned to farming in Western Europe has been a subject of debate among naturalists and archaeologists for a hundred years. New methods of dating the implements of Stone Age men have recently given more factual substance to the debate. What is more, we have learned enough about the world in which they lived to test our theories about how they lived by experiment. This is a report of a set of experiments by which a group of
scientists in Denmark attempted to re-enact some aspects of the hunting-to-agriculture chapter of mankind's past.
Denmark has unearthed relics of both stages—the bone and flint implements of the Mesolithic hunters and the polished stone axes of the Neolithic farmers. And in ancient lake sediments and bogs the prehistoric tools lie in recognizable strata of pollen, that marvelous dating instrument which identifies each period by its prevailing vegetation. The pollen record, as ecologists read it, tells the following story.
Toward the end of the last ice age, when vegetation was emerging and the country was still open, hunters ranged all over Denmark. Then, as forests grew dense and reduced large game, men abandoned the forested interior and re-
treated to the coast, where they riu4 their living by fishing and seal-hunto* This state of affairs continued for tho» sands of years, until man suddenly » pears in the forest, hacking out a im living. Clearings are hewed in Ik primeval forest. Tree pollen rapidly <V clines in certain regions, and we find • its place a sharp rise in pollen of hnb» ceous plants and the emergence 4 cereals and new weeds, notably pi* tain—the plant which the Indian» « North America called "the footsteps the white man."
Very shortly a new growth of w species which typically follow (on* clearance—willow, aspen, birch-spr»? up. The presence of birch strongly »t gests that man used fire to help clcai » forest, for on fertile soil birch suit»»*
STONE AXE was reconstructed by mounting the Neolithic flint head on a copy of a Neolithic haft preserved at the bottom of a bog. It was found that the full swing of the modern woodsman often
chipped or broke the head. Using short, rapid strokes» menters learned to fell trees more than a foot in diamcief utes. To fell small trees they chopped all the way aroii'1'
•..(] oak forest only after burning.
w^nwhile the ground flora undergoes
ľc-il and significant change. Grasses,
*         clover, sheep sorrel,  sheep's-bit
*  I other pasture plants take the upper
i  We can visualize cattle grazing jainl.                   .                               ,           i
i i,r0wsing in grassy meadows bor-
I i)V scrub forests of birch and hazel, ťiuaílv  comes   a  third  phase.   The
< .s  birch and eventually hazel de-j,  .   and a big-tree forest takes over
. .„ore.   Oak now is more dominant '.>. n before; elm and linden never re-
.r  the   strength   they   had   in   the ^„„■val forest.
1 \ll this seems to mean that men •Jr ircd large areas of the original forest .iih axes, burned over the clearings, -Jjiitcd small fields of cereals and used •.»x- rest for pasturing animals. Their col-*u/.itKm was of short duration: when •.!«- forest grew back, they moved on to .ir.ir a suitable new area. According to •he pollen record, some of their settlements can scarcely have lasted more ttuti 50 years.
Now this is a neat, tidy theory, but there are troublesome questions, (inikl Neolithic man really have cleared Uf^c areas of the thick primeval forest «tth his crude flint axes? Could he have burned off the felled trees and shrubs ..i his clearings? Our team of ecologists mh! .archaeologists decided to put these •(tH'stions to the test of field experiment. Wr obtained the needed funds and permission to clear a two-acre area in the Dravi'd Forest of Denmark, which is a »ucel oak forest like that of Neolithic tones.
Two archaeologists, Jörgen Troels-Swith and Svend Jörgensen, took charge «< the axe tests. They were able to ob-Wn a number of Neolithic flint axe U«lcs from the National Museum in Copenhagen, and a model for the wood-« naft was available in the form of the •«nous Sigerslev hafted axe excavated '""n a Danish bog. In Neolithic axes, **»se hafts were of ash wood, the blade **J inserted in a rectangular hole in the *■» [see drawing on opposite page]. Jfrgcnsen and Troels-Smith demon-**'ed that if the haft was not to be jj*t. 't must not hold the blade too ■P*'!)' but must leave room for a little "dcwise play of the blade when it *uek.
After making a number of hafted axes
^ with Stone Age man's blades, the
archaeologists,  together with two
Passional lumberjacks, went forth into
■  tou>Ksi in SePtember> 1952-When the ! ^y attacked the trees, it soon became
TREES WERE BURNED by covering them with brushwood and igniting a 30-foot strip. When the strip was almost burned out, the larger logs were used to light the next one.
SEED WAS SOWN by hand in the still-warm ash {left). Then the seed bed was raked with a forked stick {right). The plants sown were barley and two primitive varieties of wheat.
EŠ&KI--

BARLEY HAD GROWN to this height six weeks after it had been sown in the ash of the burned brushwood and trees. Barley sown in plots not covered with ash grew very poorly.
37
apparent that the usual tree-chopping technique, in which one puts his shoulders and weight into long, powerful blows, would not do. It often shattered the edge of the delicate flint blade or broke the blade in two. The lumberjacks, unable to change their habits, damaged several axes. The archaeologists soon' discovered that the proper way to use the flint axe was to chip at the tree with short, quick strokes, using mainly the elbow and wrist. Troels-Smith, working with an axe blade which had not been sharpened since the Stone Age, employed it effectively throughout the whole clearing operation without damaging it. When the two archaeologists reached
peak form, they were able to fell oak trees more than a foot in diameter within half an hour. Small trees they dropped by cutting all around the trunk; on substantial-sized ones they used the slower method of hewing through notches on the opposite sides, in order to control the direction of fall. We realized that for clearing purposes it would be advantageous to have all the trunks lying in the north-south direction; for example, the wood would dry more quickly.
In this manner we cleared the two acres of forest, letting the largest trees stand but killing them by cutting rings through the sapwood. Troels-Smith and Jörgensen concluded that Neolithic men could have cut large clearings in the
forests with their flint axes without great difficulty.
T^he next problem was to learn how •*- they might have burned off their clearings. For help in this phase of the experiment we called on Kustaa Vilkuna of the University of Helsinki, who is an expert on primitive burning techniques which were still being used quite recently by farmers in the spruce forests of Finland.
Without waiting for the wood to dry, we first tested two burning methods, one modern,.the other primitive. The modern method, though effective in forests of conifers, failed completely in our deciduous forest. The primitive method, how-
REGENERATED FOREST
PRIMEVAL FOREST
Z.
mm*
T-:-: ■
P
ISfec^.
••&
ELM
LINDEN     ASH
OAK
BIRCH

HAZELNUT
POLLEN DIAGRAM shows the effect of forest clearance on the vegetation of Denmark between about 2500 B.C. and 2300 B.C. The diagram is based on many samples of pollen taken by boring down
into bogs. The width of each colored area on the diagram reP sents the proportion of pollen from one species in compariso" that from all others. The scale of the proportions is given at
38
O use
was successful, and we proceeded it in the clearing in May of 1954,
j r the felled trees had had more than
,.„• to dry. Brushwood and branches
from the trees were spread over the
to be burned. Then this material
s jmiited along a 30-foot-wide belt by
a„'s of torches of burning birch bark
iticlu'd to stakes. When the belt was
•H clcrtied, we pushed its still burning
iy.s forward with long poles to set fire
"the adjacent area. In this way we
burned off the tangle of felled vegetation
Krll bv belt. The fire was controlled care-
iullv dav and night, to achieve an even
tI«j thorough burning of the ground. It
„ (s rather hard work, as oak wood burns
Jowlv. but there were no serious diffi-
culties, and in three or four days the job was finished. We burned only half of the two-acre clearing, because we wished to compare the subsequent growth on burned and unburned ground.
Immediately after the burning we sowed part of the area with primitive varieties of wheat (einkorn and emmer) and naked barley. That these cereals were grown in Denmark by Neolithic man is shown by grain impressions on excavated pottery. Axel Steensberg, an expert on agricultural methods, old and new, obtained seeds of the cereals from botanical collections and directed our agriculture.
We spread the seeds on the ground, raked them in with a forked branch, and
waited for the harvest. For comparison we sowed two sets of plots—one burned and one unburned but hoed and weeded. The contrast in results was remarkable. On the unburned ground the grain scarcely grew at all. Evidently the rather acid forest soil was not suited to cereal growing. But the burned ground produced a luxuriant crop (which Steensberg harvested, in Neolithic fashion, with a flint knife and a flint sickle). The success of the cereals in this ground was due in part to sweetening of the soil by the wood-ash and the absence of competition from other vegetation, but the burning may also have created other beneficial factors, and we are now investigating  this  matter.   In   any  case,
COMMON  LANCET BRACKEN                         GRASSES             PLANTAIN PLANTAIN    OTHER
COMPOSITES       ô        CEREALS      .   ■     '      a           WEEDS
!       Ieft. In the primeval forest (colored areas below the bottom
ontal line) the distribution of pollens was 30 per cent elm,
an" a8h; 30 per cent oak; 5 per cent birch; 10 per cent hazel,
and so on. During the three stages of forest clearance (1,2 and 3) the distribution of pollens changed. The distribution of herb pollens is shown at the right of the break in the horizontal lines.
39
NEW COMMUNITY OF WILD PLANTS grew up in the parts of the clearing that had been burned over. At the left is a species of
fern called bracken. Second from the left is hazel. Both of the« plants had been present in the original forest. They grew up again
whatever the factors are, they are shortlived, for the second year the burned plots yielded much smaller crops.
Now, two years after the clearing and burning, we are in the process of watching developments in the early recovery of natural plant growth. The burned and
unburned areas are developing quite differently.
In the area cleared of trees but unburned, events are following an unsurprising and unexciting course. The ground vegetation consists mainly of the species that grew there before the clear-
ing, though it is growing more luxuriously because it has more sunlight. Bracken (ferns), always abundant in this part of the world, is flourishing far more richly than when it was shaded. Grasses anil sedges have increased.
The  burned  ground,   on  the other
50
40
30
20
10
								
								
								
	it							
1		1	.1			B		
BRACKEN          GRASSES           SEDGES            MOSSES                     COMPOSITES                BOG MOSS       NETTLE
TUBULIFLORAE                          ISPHAGNUMl
LIGULIFLORAE
NEOLITHIC COMMUNITY OF WILD PLANTS that followed clearance and cultivation is analyzed in this pollen diagram. The
40
colored bars indicate the amount of pollen from each plant be clearance. The black bars indicate the amount of pollen aft«r c
j
from relatively deep roots. Third  from the left are  dandelions, members of a family which grows in profusion under such condi-
tions. Fourth are mosses, which had never been seen in this forest before. Their spores were blown into the clearing on the wind.
hand, is a scene of botanical revolution, liiacken is coming back here too, but most of the other old plants, having shallower roots, were killed off by the fire. In their stead we have a whole garden of new plants. Plantain has made its appearance, just as it does in the ancient
PARSLEY             COMMON
FAMILY     PLANTAIN
LANCET PLANTAIN
™ce- The scale at the left is based on grains Pollen per 1,000  grains of tree pollen.
pollen record after forest clearance. There is a profusion of members of the family Compositae, including dandelions, daisies, sow thistle and so forth. (These plants do not bulk large in the fossil pollen record, but that is understandable because they are pollinated by insects rather than by the wind.)
A particularly interesting development is the sudden appearance of mosses and their spread over large patches of the burned area. The main species have never been seen in this forest before. Their spores have flown into the clearing on the wind, and no doubt mosses came the same way to the areas burned by Neolithic man. What makes them especially significant is that certain mosses seem to be definite indicators of fire; three species have been so identified in America, and sure enough the same three appeared in our burned clearing. Since the moss phase in a burned forest must be ephemeral, moss spores in the fossil record should enable us to pinpoint the dates of forest clearance by Neolithic man and to learn whether they burned the same clearing more than once during the existence of a continuous settlement. Unfortunately the small moss spores are difficult to recognize, and analysts of the ancient pollen deposits have not counted them hitherto. We made a small test count at the site of a Neolithic forest clearing in Denmark, analyzing the layers representing the time of the clearance and the period just before. According to our fragmentary count, there was a sharp rise in general moss growth (we made no attempt to distinguish individual species) immediately after the clearance of the area [see chart at the left].
Our   experimental   clearing   in   the
Danish forest is just beginning to pass into the second phase, when pioneer trees appear and the regeneration of the forest commences. Birch seedlings are starting to spring up in profusion; willow seedlings have appeared; and hazel, aspen and linden shoots are rising from roots that were not killed by the fire. We are looking forward to studying this gradual regeneration in the years to come, as well as to reliving the stage in Neolithic farming when men grazed their cattle on the re-emerging ground vegetation.
]\/Teanwhile we can say that so far our -"-'-*■ experiment has confirmed the archaeological interpretation of the pollen record on several important counts. It has been demonstrated that the forest could indeed have been cleared by the primitive tools of Neolithic man, and that in the first stage at least the reviving vegetation follows a course very like that deduced from the ancient pollen layers.
Of course man's transition from hunting to farming may well have taken other paths besides the one we have traced in the Danish clearings. More than one type of agriculture may have existed simultaneously in Denmark. As a matter ; of fact, Troels-Smith has found evidences of a more primitive agriculture during the same period on the Danish coast, where the Middle Stone Age men apparently cleared no forests but practiced a little crude farming along with/ their hunting and fishing.
The Neolithic farming culture de-> scribed in this article is so much more-advanced, and begins so suddenly, that it seems to signal the arrival and invasion of a vigorous new people from another region.