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Digging stick

A digging stick is a simple, handheld wooden tool consisting of a sharpened, often fire-hardened stick, typically 0.5 to 1.5 meters in length, used primarily for digging soil to extract roots, tubers, or burrowing animals, and for planting or tilling in early agricultural practices.^[1]^[2] These implements represent one of the earliest known human tools, with evidence of their use dating back over 300,000 years in regions like China, where wooden examples were employed for foraging plant foods by early hominins.^[3] In prehistoric contexts, such as the Middle Palaeolithic site of Aranbaltza III in Spain (approximately 90,000 years old, ca. 70 ka), digging sticks show use-wear consistent with soil excavation, highlighting their role in Neanderthal subsistence strategies.^[1] Throughout history, digging sticks have been integral to indigenous and traditional societies worldwide, serving as versatile tools in foraging, horticulture, and small-scale farming. Across Africa and other regions, similar wooden sticks, up to 1.5 meters long, were used for digging up roots, tubers, and planting seeds, underscoring their enduring adaptability in pre-industrial economies.^[4] Culturally, digging sticks often held symbolic value, passed down through generations or used in burials, reflecting their importance in gender-specific labor and spiritual beliefs.

Overview and history

Definition and purpose

A digging stick is a basic wooden implement consisting of a sharpened stick, often around 1 meter in length with a pointed, fire-hardened tip and a rounded handle, employed by subsistence-based societies for various earth-working tasks.^[5] This simple tool, one of the earliest in human evolution, requires no advanced technology and is crafted from readily available hardwoods like boxwood.^[6] It serves as a multipurpose device in non-industrial contexts, distinguishing it from more elaborate agricultural equipment.^[5] The primary purposes of the digging stick include aerating soil for planting seeds, foraging for underground resources such as tubers, roots, and insects, and performing basic earth-moving activities.^[7]^[5] In foraging societies, it facilitates the extraction of edible plants and small game from the ground, contributing significantly to caloric intake through women's gathering efforts.^[7] Ethnographic and archaeological evidence also highlights its role in early Neolithic soil tilling and sowing, marking a transition from hunter-gatherer practices to rudimentary agriculture.^[6] Compared to bare hands, the digging stick offers increased leverage and penetration depth, enabling more efficient labor in hard or dry soils where manual digging would be impractical.^[5] This advantage stems from its pointed design, which concentrates force for deeper access without the need for additional components.^[6] In contrast to more complex tools like hoes or spades, which incorporate blades or footrests for enhanced cutting and lifting, the digging stick emphasizes portability and minimalism as a single, lightweight shaft that can be easily carried and fabricated on-site.^[8]

Origins and prehistoric use

The digging stick represents one of the earliest known wooden tools in human prehistory, with the oldest direct evidence coming from Kalambo Falls in Zambia, where a modified stick of Kigelia africana wood, interpreted as a digging implement based on its pointed tip and shaping marks, dates to approximately 390,000 years ago.^[9] This artifact, recovered from Middle Pleistocene fluvial deposits associated with Acheulean technology, suggests intentional woodworking by early hominins, likely Homo heidelbergensis or late Homo erectus, to create tools for extracting underground resources such as tubers and roots.^[9] In the context of early human evolution, the digging stick played a crucial role in hunter-gatherer subsistence strategies, enabling access to nutrient-rich plant foods that supplemented diets beyond scavenging and hunting.^[5] Archaeological interpretations link such tools to Homo erectus populations, who demonstrated advanced woodworking capabilities, as inferred from cut marks on wooden fragments and associated stone tools used for shaping.^[9] These implements likely facilitated survival in diverse environments by allowing efficient foraging for geophytes and other subterranean edibles, contributing to dietary breadth during the Paleolithic era.^[10] As human populations migrated out of Africa, evidence of digging sticks appears in multiple regions, indicating continuity in tool use into the Middle and Late Pleistocene. In South Africa, a wooden digging stick from Border Cave, dated to around 42,000–43,000 years ago and associated with early Later Stone Age layers, exemplifies hafted or weighted versions.^[11] Similar multipurpose sticks, charred at the tips from fire-hardening, were found at Poggetti Vecchi in Italy, dating to 171,000 years ago and linked to Neanderthal groups for digging and other foraging tasks.^[5] In Asia, 300,000-year-old pine digging sticks from the Gantangqing site in China, including two-handed versions for plant extraction, highlight planned excursions to exploit vegetable resources by early Paleolithic hominins.^[10] This pattern persisted into the Neolithic with proto-agricultural applications, as inferred from preserved wooden tools at Wyrie Swamp in Australia, where digging sticks dated to about 10,000 years ago supported ongoing foraging practices.^[12]

Design and materials

Construction techniques

Digging sticks are typically fabricated from straight branches or roots of durable hardwoods, selected for their strength and flexibility. Common materials include boxwood (Buxus sempervirens), yew (Taxus baccata), oak (Quercus sp.), acacia (Acacia sp.), pine, and other hardwoods, chosen for resistance to wear and environmental degradation.^[5]^[1]^[13]^[14]^[15] The basic construction process begins with cutting the branch using stone or flint tools to remove bark and lateral twigs, followed by shaping the distal end into a pointed tip through scraping or chopping. Sharpening is achieved by abrading the wood with stones or by charring the tip over fire to create a workable surface, often resulting in a rounded U-shaped point for penetration. Fire-hardening, where the tip is exposed to controlled flames to char and temper the wood, enhances durability and is a widespread technique evidenced in both archaeological specimens and ethnographic accounts.^[5]^[1]^[13]^[7] Lengths generally range from 1 to 2 meters to provide adequate leverage for digging, with thicker proximal ends (2.5–4 cm diameter) often rounded for handling. Archaeological evidence from the Gantangqing site in southwestern China (dated approximately 300,000 years ago) includes large, two-handed digging sticks made of pine and hardwood, highlighting early complex woodworking in East Asia.^[5]^[4]^[15] Enhancements to basic designs include notching the shaft for improved hand grips, though this varies; more commonly, a perpendicular cross-piece of wood, antler, or bone (5–8 inches long) is hafted near the top to enable two-handed operation and better control. Weighting the shaft with perforated stones (up to 5 kg, bored for attachment) adds momentum for tougher soils, secured by wedges or bindings as observed in ethnographic records. In some cases, a detachable point—such as a sharpened stone or later metal tip—is hafted to the end for replaceability and prolonged use.^[7]^[16]^[4] Maintenance involves periodic resharpening of the tip after use, often by beveling or re-charring, to restore functionality. Storage in dry conditions prevents rot, particularly important for woods like yew that offer natural resistance, ensuring the tool's longevity in humid environments.^[1]^[13]^[1]

Regional variations in form

Digging sticks exhibit significant regional variations in design, shaped by local environmental conditions and available resources. In arid environments such as the Kalahari Desert, where deep-rooted tubers and underground resources require extensive probing, longer and more flexible sticks predominate, often measuring around 1.2 meters in length and crafted from resilient woods like Flueggea virosa to withstand repeated deep insertions into hard, dry soil.^[17]^[18] Conversely, in denser forested or floodplain settings, shorter and sturdier variants, typically under 30 cm, are favored for precise, close-to-the-ground work in softer, looser substrates, allowing for maneuverability amid vegetation.^[1] Material choices reflect resource scarcity and durability needs across regions. In tropical zones of Asia and the Pacific, lightweight woods or bamboo are employed for their flexibility and ease of transport, enabling extended use in humid conditions without excessive weight; for instance, Philippine examples reach 147 cm but prioritize slender profiles for balance. Prehistoric evidence from the Gantangqing site in China includes digging sticks made of pine and hardwood, dated to approximately 300,000 years ago.^[19]^[15] In areas with limited hardwood, such as parts of North America and Africa, bone or antler reinforcements are incorporated, particularly for tips or handles, to enhance penetration and longevity—elk antler handles, for example, provide ergonomic grip and impact resistance in the Columbia Plateau region.^[20] African variants in the Horn region often feature stone weights bored onto wooden shafts for added leverage in compacted soils, with overall lengths around 1.15 m.^[21] Ergonomic adaptations further distinguish designs by geography. Curved or slightly arched handles, as seen in Plateau cultures of the Americas, improve soil leverage during thrusting motions, with lengths of 60–90 cm suiting varied terrains.^[7] Some configurations include perpendicular cross-pieces of antler or wood at the top, functioning as detachable levers for two-handed operation and multi-tool versatility, common in resource-scarce settings to amplify force without specialized crafting.^[20] Overall scale spans handheld probes of 20–50 cm for targeted extraction to full-body levers exceeding 1.5 m, influenced by user stature and terrain demands; ethnographic records from Australia document extremes from 42 cm to 1.68 m, underscoring adaptive flexibility.^[22]

Traditional applications

In foraging and agriculture

The digging stick functions as a primary tool in foraging for wild tubers, such as yams and other underground storage organs, as well as roots and burrowing animals like porcupines, springhares, or rodents.^[23] Foragers, often women in hunter-gatherer societies, use it to probe the soil to locate these resources and then apply levering action to extract them, minimizing disturbance to the surrounding earth and allowing regrowth.^[23] This method is particularly effective in dry-season foraging, where underground plants form a key dietary component, and the tool's simplicity supports mobility in nomadic groups.^[23] In agricultural contexts, the digging stick facilitates seed planting by poking shallow furrows into prepared soil, enabling direct insertion of seeds like maize or root crops in swidden systems.^[24] It also aids weeding by dislodging unwanted plants around growing crops and light tilling to aerate the topsoil in slash-and-burn plots, where vegetation is cleared by fire to enrich fertility before cultivation.^[25] These applications are suited to small-scale, labor-intensive farming on marginal lands, promoting sustainable rotation as fields are abandoned to regenerate.^[25] Ethnographic observations highlight the digging stick's efficiency in tuber processing, with Hadza foragers harvesting an average of 46.3 tubers per hour in suitable soils, yielding several kilograms to sustain group nutrition and nomadic patterns.^[26] This productivity underscores its role in supporting foraging economies without advanced implements.^[26] The tool's versatility contributed to early transitions from foraging to farming, notably in the domestication of potatoes in the Andes, where it allowed precise cultivation on steep slopes long before metal tools or plows were available.^[27] Pre-Inca farmers relied on wooden digging sticks to till high-altitude terraces, facilitating selective breeding and propagation of wild potato varieties into staple crops.^[8] This predated innovations like the foot-plow, marking the digging stick as foundational to Andean agropastoral systems.^[8]

In hunting and other activities

In traditional hunting practices among Australian Aboriginal communities, the digging stick, known as wana in some dialects, serves as a key tool for extracting burrowing animals such as monitor lizards and goannas from their underground refuges, particularly after controlled burns flush prey to the surface.^[28] Women and children often employ the sharpened end to probe and loosen soil around burrow entrances, enabling the capture of small mammals like rabbits, which were hunted by both men and women in regions like South Australia following their introduction in the 19th century.^[29] Similarly, among the Pumé people of Venezuela, hunters use digging sticks or adapted bows to probe armadillo burrows during wet-season expeditions, testing for occupancy before excavation.^[30] Beyond direct prey extraction, the digging stick functions as a probe to locate and access hidden animal signs, such as fresh tracks or disturbed earth near potential burrows, aiding in the strategic placement and checking of snares for small game in forested or savanna environments.^[30] For insect foraging integrated with hunting, Aboriginal groups in central Australia use the tool to dig out witchetty grubs—large, protein-rich larvae—from tree roots or soil, often locating them by tapping the stick on wood to elicit movement sounds before extraction.^[31] In non-food applications, digging sticks facilitate the harvesting of medicinal plants by penetrating hard soil to reach underground roots, such as osha (Ligusticum porteri), valued by Ute communities in the Rocky Mountains for its analgesic properties when prepared as teas or poultices.^[32] The tool also aids in utilitarian tasks like shelter construction; for instance, in ancestral Puebloan pithouse building, it was used to loosen and excavate soil for foundational pits and post holes, creating semi-subterranean dwellings in arid landscapes.^[33] This multi-purpose adaptability underscores the tool's role in survival strategies, where it combines with fire—such as in Aboriginal fire-stick practices—to expose burrows or drive insects like grubs toward diggable surfaces during dry seasons.^[28]

Cultural and regional contexts

In the Americas

In pre-Columbian times, digging sticks were essential tools for potato cultivation among Andean cultures, enabling farmers to work steep slopes that would have been inaccessible with plows. The Inca developed the chaki-taklla, a foot plow featuring a metal or stone point and a footrest for leverage, which facilitated efficient soil preparation in terraced fields.^[34] In the Amazon, indigenous groups such as the Choroti-Manjuy used digging sticks to extract roots of bitter manioc (Manihot esculenta), a staple crop requiring careful harvesting from forest gardens.^[35] Among North American Plains tribes like the Blackfoot, digging sticks were employed by women to gather camas roots (Camassia quamash), a vital carbohydrate source dug from prairie soils using antler-tipped or wooden implements.^[20] This practice highlighted gendered labor divisions, with women primarily responsible for foraging and root gathering using these tools, while men focused on hunting.^[7] Following European contact, the introduction of metal hoes and plows led many indigenous groups to adapt traditional digging sticks by incorporating metal tips, while shifting toward larger-scale farming with imported tools.^[7] However, the tool persisted in remote areas, such as among the Yanomami in the Amazon, where digging sticks remain integral to horticulture, including manioc planting and harvesting, alongside limited adoption of metal axes.^[36]

In Asia and the Pacific

In Australian Aboriginal cultures, the digging stick, often referred to as a yamma or wanna, served as an essential tool for foraging yams and other root vegetables in managed landscapes shaped by fire-stick farming practices. These pointed wooden implements, typically crafted from hardwoods like casuarina, were used by women to excavate tubers such as wild yams (Dioscorea species), which were a staple food source, while the strategic use of low-intensity fires by communities promoted the regeneration of yam-rich grasslands and reduced wildfire risks. This integrated approach to land management enhanced biodiversity and food security across diverse ecosystems, from arid interiors to coastal regions.^[37]^[38]^[39] Across Polynesia, particularly in Hawaii, the digging stick known as the ‘ō‘ō played a central role in taro (Colocasia esculenta) cultivation, a cornerstone of traditional agriculture. In dryland or upland systems, the ‘ō‘ō—a sturdy wooden pole sharpened at one end—was employed to dig planting holes approximately 24 inches deep and angled at 45 degrees, into which huli (corm tops with leaf stalks) were inserted; this method relied on natural rainfall and mulching with organic materials like fern fronds to retain moisture in volcanic soils. Taro fields, or lo‘i, prepared with such tools supported communal food production and cultural practices, with plants maturing in 8–12 months and varieties like Lauloa left in the ground indefinitely for sustained harvests.^[40] In Melanesia, notably among communities in Papua New Guinea, digging sticks were indispensable for extracting sago starch from palm trunks (Metroxylon sagu), a vital carbohydrate source in lowland swamps. These versatile wooden tools, the primary implement in vegeculture, were used to dig around tree bases, harvest associated yams, and prepare extraction sites by clearing land; the process involved felling mature palms, splitting trunks, and rasping pith, with the stick aiding in initial probing and soil displacement to access starchy cores that yielded up to 200–300 kg of flour per tree. This labor-intensive technique underscored sago's role as a subsistence staple, often processed into porridge or pudding for daily consumption.^[41] Historical evidence from Neolithic sites in China reveals early use of wooden digging sticks in agricultural preparation, including rice paddy development, with bamboo variants likely employed for their lightweight durability in wet-field systems. Archaeological finds from the Yangtze River basin, dating to around 10,000–7,000 BP, indicate that such tools complemented stone implements in soil tilling and planting, facilitating the transition to intensive rice cultivation (Oryza sativa) in flooded paddies; bamboo's flexibility and resistance to rot made it ideal for repetitive digging in monsoon-prone environments. These practices supported population growth and the emergence of settled villages during the Hemudu and Liangzhu cultures.^[42]^[43] Island adaptations in Micronesia, such as those on Pohnpei, featured lightweight digging sticks tailored for horticulture in challenging soils, including coral-derived substrates on atolls. Crafted from local woods like breadfruit or hibiscus, these slender, pointed tools—often under 1.5 meters long—enabled efficient planting of staples like taro and banana in thin, nutrient-poor layers overlying coral limestone, where heavier implements would be impractical; prior to metal introductions, they were the sole means for creating holes in raised beds or mounded plots, promoting multi-cropped agroforestry systems resilient to saltwater exposure and cyclones.^[44]^[45]

In Africa

In East Africa, the Hadza foragers of Tanzania rely on digging sticks as essential tools for subsistence, particularly for collecting tubers, which form a staple of their diet alongside berries, meat, baobab, and honey. Women and children primarily use these wooden implements, often sharpened at one end, to excavate underground tubers from the savanna soils, with grandmothers contributing significantly to this labor-intensive foraging activity.^[46]^[47] Hadza men also employ similar probing and digging techniques, including with sticks, to access underground honey hives, harvesting this highly valued resource that ranks as their favorite food and provides crucial calories during lean seasons.^[48]^[49] In the Ethiopian highlands, variants of the digging stick known as nougouil—weighted implements featuring bored stones attached to wooden shafts—are adapted for tilling dense, compact clay soils unsuitable for traditional plows, facilitating soil preparation and planting during the rainy season. These tools, typically weighing 1-3.5 kg and crafted from basalt, are used by men in regions like Harar to break hard ground, enhancing fertility for staple crops such as teff, a resilient cereal central to highland agriculture.^[50] Among Southern African San (Bushmen) groups, such as the !Kung or Ju/'hoansi, digging sticks serve as a core foraging tool, enabling women to gather nutrient-rich resources like mongongo nuts, which are collected from the Kalahari sands after falling from trees and occasionally probed or unearthed if partially buried. These sticks, often whittled from local wood, are indispensable for excavating roots, tubers, and buried items, including ostrich eggs from nests, which provide vital protein and are dug up during seasonal hunts to supplement the diet heavy in plant foods.^[51]^[52]^[17] In the arid Sahelian zones of West Africa, pastoralist adaptations include elongated digging or probing sticks used by herders to test dry riverbeds and wadis for subsurface moisture, aiding livestock watering in regions where groundwater is scarce and mobility is key to survival. These long implements allow for quick assessment of potential water points without extensive excavation, supporting transhumance patterns amid variable rainfall.^[53] Socially, digging sticks function as communal tools in herding societies of East Africa, reinforcing social bonds and resource sharing in pastoralist life.^[54]

Modern relevance

Archaeological and ethnographic studies

Archaeological investigations have uncovered rare wooden digging sticks, highlighting their ancient role in human subsistence. One of the earliest known examples comes from the Gantangqing site in southwest China, where artifacts dated to approximately 300,000 years ago include pointed digging sticks used to extract underground storage organs like tubers, providing evidence of planned foraging by early hominins.^[15] In Europe, a Middle Palaeolithic wooden digging stick from Aranbaltza III in Spain, estimated at around 90,000 years ago, demonstrates Neanderthal use of shaped wood for soil penetration, with microscopic analysis revealing wear patterns consistent with digging.^[22] Further, at the Neolithic site of La Draga in northeastern Spain, over 40 well-preserved wooden digging sticks from circa 5300–4900 BCE exhibit manufacturing techniques such as splitting, scraping, and fire-hardening, underscoring their integral function in early agriculture.^[55] Ethnographic studies document the cultural significance of digging sticks among traditional societies, often linking them to gendered labor divisions and resource extraction. In Polynesian contexts, such as Hawaiian dryland farming on Maui's leeward slopes, ethnographic records describe digging sticks as primary tools for cultivating sweet potatoes and taro, with women typically responsible for their use in soil preparation and weeding, as noted in historical accounts from the 19th and early 20th centuries.^[56] Among Australian Aboriginal groups, rock art depictions, including a red digging stick stencil at the Marra Wonga site in South Australia dated to the mid-Holocene, illustrate their role in foraging narratives, where such tools are symbolically associated with women's gathering of roots and small game.^[57] Methodological challenges in studying digging sticks stem primarily from wood's poor preservation in most archaeological contexts, limiting direct evidence to waterlogged or anaerobic sites. Researchers often rely on proxies such as associated pollen residues indicating root extraction, soil disturbance marks, or use-wear on stone tools that complemented wooden implements.^[58] For instance, at waterlogged Neolithic sites like La Draga, exceptional preservation allows trace-element analysis, but in arid or aerobic environments, indirect methods like experimental replication help infer tool morphology and function.^[55] These studies reveal key insights into social dynamics and technological progression. Evidence from ethnographic and archaeological sources consistently points to a gender division in tool use, with digging sticks predominantly linked to women's foraging and horticultural activities across hunter-gatherer and early farming societies, as seen in Australian Aboriginal practices and Neolithic European assemblages.^[59] Over time, digging sticks evolved from opportunistic, unmodified branches to specialized forms, such as fire-hardened tips observed in Neanderthal examples from Poggetti Vecchi, Italy (circa 171,000 years ago), reflecting adaptations for efficiency in diverse environments.^[5] Influential work by researchers at Franchthi Cave in Greece, including analyses of early Neolithic tool kits, contextualizes broader shifts to sedentary agriculture, though direct wooden examples remain elusive there.

Contemporary adaptations

In survival and bushcraft training, the digging stick has seen a revival within outdoor education curricula, where it serves as an essential tool for foraging roots, excavating soil for shelters or fire pits, and practicing primitive skills to foster self-reliance in wilderness settings. Books on outdoor survival emphasize its role in these activities, highlighting its simplicity and effectiveness for modern practitioners learning low-impact techniques.^[60] In sustainable agriculture, particularly permaculture and no-till systems, digging sticks—often referred to as dibble sticks—are employed for precise seed planting and soil aeration with minimal disturbance, acting as an environmentally friendly option compared to mechanized equipment that can degrade soil health. These tools allow for targeted interventions that preserve microbial ecosystems and reduce erosion, aligning with regenerative farming principles. For instance, organic farmers integrate them into companion planting strategies to enhance crop yields while maintaining soil integrity.^[61] Indigenous Amazonian communities, such as the Kalapalo in Brazil's Parque Indígena do Xingu, continue to utilize digging sticks for low-impact cultivation of root crops and other staples, supported by nonprofit organizations like the Amanaka'a Amazon Network to sustain traditional technologies amid environmental threats. This practice helps preserve biodiversity and counters deforestation by promoting non-industrial land use.^[62] In Africa, digging sticks form a cornerstone of subsistence farming in countries like Liberia, where they enable small-scale cultivation of staple crops under slash-and-burn systems, directly contributing to household food security in the face of climate challenges and limited mechanization. Efforts by development organizations to bolster traditional tools in these contexts aim to enhance productivity and resilience without relying on imported machinery.^[63] Innovations in digging stick design include hybrid versions featuring sharpened metal tips affixed to wooden or composite shafts, which boost penetration through compacted soils while upholding the ergonomic, hand-held form favored for portability and reduced fatigue. These adaptations are especially valued in conservation agriculture for facilitating direct seeding in mulched or covered fields, supporting no-till methods that curb soil degradation.^[64]

References

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A Middle Palaeolithic wooden digging stick from Aranbaltza III, Spain
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A five to eight inch cross-piece made of antler, bone, or wood fits perpendicularly over the top of the stick, allowing the use of two hands to drive the tool ...Missing: definition | Show results with:definition
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This was probably the implement most likely to have been often used in the heavy digging of soil. The Uictli Axoquen is an interesting tool because, while it is.
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### Abstract
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Digging implement. Adelaide, Spencer, South Australia, Australia. c ...
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The digging stick consists of a dark-brown, relatively heavy wood (Casuarina equisetifolia), which may also originally have been very hard, the patina of which ...Missing: material bamboo acacia ethnographic sources
[41]
Yam Lands: the Mystery of a Holey Landscape
Anthropogenic controlled burning, sometimes called mosaic or patchwork firing or 'fire-stick farming' (Rhys-Jones 1969) was an essential tool in Aboriginal food ...
[42]
Cultivation of kalo - Bishop Museum
An 'ō'ō (digging stick)was used to prepare the hole for the huli. Mulch was placed around the base of the planting and natural rainfall provided watering.
[43]
[PDF] Anthropological Studies of Sago Palm in Papua New Guinea
4) The digging stick is the only tool developed for use in vegeculture. People use it for different purposes, such as digging holes, harvesting yams ...
[44]
New evidence for rice harvesting in the early Neolithic Lower ... - PMC
Dec 7, 2022 · Here we report the first evidence for rice harvesting, based on use-wear and phytolith residue analyses of 52 flaked stone tools (10000–7000 BP)Missing: stick | Show results with:stick
[45]
Archaeological evidence for initial migration of Neolithic Proto Sino ...
Dec 12, 2022 · They prepared qu starter with Monascus mold and rice for brewing alcoholic beverages, which may have been consumed in communal drinking ...Missing: stick paddy
[46]
[PDF] A Review of Traditional Micronesian High Island Horticulture in ...
The digging stick (ot) is the primary tool used in horticulture, along with ... grown in a variety of settings, wherever soil and water conditions permit.Missing: resistant | Show results with:resistant
[47]
[PDF] An Indigenous Pacific Island Agroforestry System: Pohnpei Island1
Agricultural Technology and Management. Farming technology was generally traditional, with the ma chete and metal digging stick being the most important tools.
[48]
Hadza - Summary - eHRAF World Cultures
Digging sticks, and bows and arrows—which are used, respectively, by women and children to dig for tubers, and by men and boys for hunting—are either made out ...
[49]
[PDF] Hardworking Hadza grandmothers - The University of Utah
When roots are the target, 48% of foraging time is spent travelling to and from the patch and cooking and eating the tubers, 38% in active digging, and the ...Missing: yield | Show results with:yield
[50]
HADZABE RELATIONSHIPS & POSSESIONS
Jun 2, 2019 · But the significance of this is that the axe is used to chop wood, dig out honey bee hives, collect branches for digging sticks, bows and arrows ...
[51]
Hadzabe Hunting Guide: Techniques, Tools & Morning Hunt Duration
Jun 25, 2025 · Digging sticks are used not only for extracting roots and tubers but also for hunting small prey like mice. In addition to tubers, Hadzabe women ...
[52]
https://utoronto.scholaris.ca/server/api/core/bitstreams/7b8f6260-5c7b-4198-b1e3-37191fc283df/content
[53]
Dobe Kung - Laulima!
A wooden digging stick, whittled in an hour, last several months. A bow, arrows, and a quiver, which take several days to make, last years. The people's few ...
[54]
[PDF] Ecology of a Contemporary San People
Nov 20, 2009 · weight, and one species, the mongongo nut, accounts for at least half of the total. ... The all-important digging stick can be whittled in ...<|separator|>
[55]
How Hadzabe dig for water in dry rivers | hunter-gatherers lifestyle.
Dec 21, 2022 · hadzabe #hadza #gathering #africantribes #life #lifestyle #amazing #foryou #bushcraft #bushcraftstories.Missing: Sahelian herders probing stick beds
[56]
14 Traditional Tools of the Maasai - Google Arts & Culture
Ortage is a wooden tool that is used to pull things up from the ground. This tool is U-shaped on the top which helps to hold wooden logs.Missing: digging ovens
[57]
300,000-year-old wooden tools from Gantangqing, southwest China
Jul 3, 2025 · The Gantangqing wooden implements provide the earliest evidence of digging sticks and the exploitation of underground storage organs from ...
[58]
https://pmc.ncbi.nlm.nih.gov/articles/PMC4479747/
[59]
Tool mark analysis of Neolithic wooden digging sticks from La Draga ...
Dec 20, 2020 · This paper will focus on the manufacture process of an ensemble of 44 wooden digging sticks from the site.
[60]
Intensive dryland farming on the leeward slopes of Haleakala, Maui ...
Feb 18, 2007 · Ethnographic accounts of Hawaiian sweet potato and dryland taro cultivation techniques provide details on the use of such digging sticks. By ...
[61]
Massive outback rock art site reveals ancient narrative - Griffith News
Sep 21, 2022 · a red digging stick stencil, stencilled tips and possible ring pad stencil;; engraved human-like feet and dingo track;; an engraved star-like ...
[62]
The principles, procedures and pitfalls in identifying archaeological ...
May 7, 2015 · Charred wood and charcoal. Composite artefacts that have both organic and metal components preserved are rarely found in archaeological sites ...Missing: artifacts | Show results with:artifacts
[63]
Spear and digging stick The origin of gender and its implications for ...
Aug 6, 2025 · A division of labour between sexes/genders in which, although there is some overlap, men hunt large game and women collect smaller game, ...
[64]
OUTDOOR SURVIVAL SKILLS, Larry Dean Olsen, 7th edition
In stockUsing tools and weapons of stone and bone, digging roots and trapping game, suffering cold nights without bedding, and hot days without water or even shoes, ...Missing: bushcraft | Show results with:bushcraft
[65]
How Indigenous Tools Still Shape Modern Agriculture - CSA Farms
Jun 2, 2025 · Indigenous communities crafted remarkably effective farming tools from locally available materials, primarily stone and wood. Digging sticks, ...
[66]
Digging stick | National Museum of the American Indian
Formerly in the collection of the Amanaka'a Amazon Network (New York City), a nonprofit environmental education organization that assisted indigenous ...Missing: manioc extraction
[67]
Food Security Challenges and Opportunities in Liberia: A Comprehensive Literature Review
### Summary on Use of Digging Sticks in African Agriculture for Food Security and NGO Involvement
[68]
Planting sticks (possibly with steel tips) can be used to plant through...
Download scientific diagram | Planting sticks (possibly with steel tips) can be used to plant through soil cover. They have been used for generations, ...<|separator|>