An oak savanna is a type of savanna (or lightly forested grassland), where oaks (Quercus spp.) are the dominant trees. It is also generally characterized by an understory that is lush with grass and herb related plants.[1] The terms "oakery" or "woodlands" are also used commonly, though the former is more prevalent when referencing the Mediterranean area.[2] Oak savannas typically exist in areas with low precipitation and feature poor soils. Predominant land uses include rangeland agriculture. Naturally, these savannas depend on natural wildfires (e.g. caused by lightning) to maintain their open vegetation.

Oak savanna, California

United States

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Map of oak savanna distribution in North America

Although there are pockets of oak savanna almost anywhere in North America where oaks are present, there are three major oak savanna areas: 1) California, British Columbia, Washington and Oregon in the west; 2) Southwestern United States and northern Mexico; and 3) the prairie/forest border zone of the Midwestern United States.[3][4] There are also small areas of oak savannas in other parts of the world. (See also Eastern savannas of the United States for information on pine savannas of the U.S. South.)

 
Wisconsin bur oak savanna in mid-summer
 
Fox River Grove, Illinois oak savanna; winter

California

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A mix of grassland and savannas make up about 15% of California. Oak subcategories within the state are separated by region, with the northern type including garry oak (Quercus garryana) and blue oak (Quercus douglasii), the southern type including Englemann oak (Quercus englemannii) and coast live oak (Quercus agrifolia), and the foothill woodlands including interior live oak (Quercus wislizenii) and blue oak as well.[5]

Midwestern oak savannas

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The oak savannas of the Midwestern United States form a transition zone between the moist broadleaf and mixed forests to the east and the arid Great Plains to the west. They are found in a wide belt from northern Minnesota and southern Wisconsin, down through Iowa, Illinois, northern and central Missouri, eastern Kansas, and central Oklahoma to north-central Texas, with isolated pockets further east around the Great Lakes, including Ontario.[1]

According to the findings of Victoria A. Nuzzo, since there is much variation per state, other names used for the Midwestern oak savanna are oak opening, scrub prairie, oak barrens, and brush savanna.[1]

The bur oak (Quercus macrocarpa) is the dominant species in northern oak savannas, although black oak (Quercus velutina), white oak (Quercus alba), and Hill's oak (Quercus ellipsoidalis) are sometimes present. The dominant tree in the south is usually black oak, although the chinquapin oak (Quercus muhlenbergii), post oak (Quercus stellata), and black-jack oak (Quercus marilandica) are also common.

The flora of the herbaceous layer generally consists of species associated with tallgrass prairies, both grasses and flowering plants, although some woodland species may be present. Some of these plants can include white wild indigo plant (Baptista lucantha), purple cornflower (Echinacea purpurea) and pasture rose (Rosa carolina).[6] There are also a few species that are unique to oak savannas.[7][8][9] Some important species in the midwest oak savanna include a variety of bats, like the evening bat (Nycticeius humeralis) found in Missouri, and many types of birds, including the blue winged warbler  (Vermivora cyanoptera), field sparrow (Spizella pusilla), and summer tanager (Piranga rubra).[10] Oak savannas, because of their mixture of grassland, woodland, and unique savanna species, typically have a higher plant diversity than grasslands and woodlands combined.

History

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Before European settlement, the oak savanna, a characteristic fire ecology, was extensive and was often a dominant part of the ecosystem. Fires set by lightning ensured that the savanna areas did not turn into forests. Savannas normally were found next to large prairies near rolling hills and this combination of habitat was perfect for deer, bison, elk, and other grazing animals.[11] Only trees with a high tolerance for fire, principally certain oak species, were able to survive. On sandy soils, black oak (Quercus velutina) predominated. On rich soils bur oak (Quercus macrocarpa) was the major tree in Midwestern North America. These savanna areas provided habitat for many animals, including American bison, elk, and white-tailed deer.

Research by Granado-Díaz, Villanueva, & Colombo (2024)[12] on land manager preferences for environmental services in oak savannas offers historical insights into the evolution of conservation strategies. This study illuminates the critical role of managing understory vegetation for ecological health, integrating seamlessly with the natural fire regimes that shaped these ecosystems. These findings underscore the importance of preserving the intricate balance between fire, vegetation, and wildlife that defines the oak savanna's unique ecological identity. The understory flourishes from exposure, as the oaks tend to be scattered, making for a less dense canopy. Fires contain the oak population, as too much shade would eliminate the grasses underneath.[13]

The most fire-tolerant of the oak species is the bur oak (Quercus macrocarpa), which is especially common in hill-country savannas in the Midwest.

 
Fire-tolerant bur oak savanna in Wisconsin hill country

European settlers cleared much of the savanna for agricultural use. In addition, they suppressed the fire cycle. Thus surviving pockets of savanna typically became less like savannas and more like forests or thickets. Many oak savanna plant and animal species became extinct or rare.

However, a lack of generalized terminology or documentation in historical records has made it difficult to know about the past state of oak savannas. [1]

 
Prescribed burn; Wisconsin bur oak savanna

Conservation and restoration

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Prescribed burn in oak savanna in Iowa

Large areas of the Oak Savanna are affected by woody plant encroachment.[14] With the rising interest in environmental conservation, restoration and preservation of surviving areas of oak savanna began. Low intensity, Spring-time prescribed burns have been used since 1964 at the Cedar Creek Ecosystem Science Reserve in Minnesota in an attempt to restore the area to an oak savanna.[15] Burned areas are now more savanna-like, having greater grass and forb with lower shrub and tree representation, than unburned areas, but still have higher overstory densities than apparently existed in pre-settlement times. Decreasing canopy cover density is a key part in these restoration efforts. [10]

Two separate studies done by Garrastatxu et al. (2024)[16] and Encinas‐Valero et al. (2024)[17] have identified the crucial role of fungal symbionts and the tree-soil microbial system in the health of oak savannas, underlining the importance of these factors in restoration practices. This insight is pivotal, as it highlights the interconnectedness of all elements within the oak savanna ecosystem, emphasizing that successful restoration efforts must account for the complexity of biological relationships. Similarly, the study by Hsiao et al. (2024)[18] on the impact of vegetation and geology on soil nutrient storage in juniper–oak savannas emphasizes the need to consider soil health in restoration efforts.

Restoration work in the US began in the 1970s in Illinois, followed by work in Wisconsin, Indiana, Iowa, Missouri, and Minnesota.[19] The Bald Hill Natural Area in Corvallis, Oregon, was established in the 1990s in part to protect oak savanna remnants.[20][21] At one point in time the oak savanna was the most common type of vegetation found in the midwest, but it is now endangered with many ecologists every year working on replacing the oak savannas that have been destroyed in the past.[22]

For centuries, the issue of oak regeneration failure has been acknowledged. Historical records, such as French ordinances dating back to the 13th century, illustrate early recognition of obstacles to oak regeneration. These ordinances required the planting of oak seedlings to prevent overharvesting, given oak's significant timber worth and adaptability.[23]

Current distribution

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Pre-settlement there were approximately 50,000,000 acres of oak savanna in what is now the Midwestern United States, all of it located exclusively in a wide strip stretching from southwestern Michigan to eastern Nebraska, and from southern Manitoba to central Texas. After Europeans arrived, fire suppression and settlement diminished the oak savannas to a fraction of their former expanse; they currently exist in many fragmented pockets throughout their native range.

Valadi et al. have explored the conflicting edge influences on herbaceous species in oak savannas, shedding light on the complex interactions that impact the distribution and conservation status of these ecosystems today.[24] This research underscores the need for nuanced conservation strategies that address both the macro and microecological pressures impacting oak savanna preservation.

Many sites are protected and maintained by government bodies or non-profit organizations such as The Nature Conservancy, the Wisconsin and Minnesota Departments of Natural Resources, and the Iowa Natural Heritage Foundation. In the midwest, about only 30,000 acres total of oak savanna still exist. The savannas that remain are fairly small at about 100 acres and this rarity has caused them to be categorized as “globally imperilled”.[22] It is estimated that about only less than 0.02% of the original savannas remain due to human interaction and many organizations and conservations are prioritizing restoring and recreating these ecosystems in the midwest.[11]

Examples of remnant oak savanna include:

Examples of restored oak savanna sites:

In the Western Palearctic

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In Europe, wood pastures, semi-open oak woodlands used for grazing, were widespread and common landscape features across the continent during the Middle Ages, but have since declined. Traditionally, they have been considered purely anthropogenic landscapes, the result of human clearing of virgin forest since the beginning of the European Neolithic. However, according to proponents of the controversial wood-pasture hypothesis, they can be viewed as functional analogs to the oak savannas that may have naturally covered large parts of Europe during the early Holocene. After the Industrial Revolution and the accompanying intensification of land use, they became rarer and were displaced by forests, open croplands, pastures, and meadows. Today, they are largely confined to small patches in western and central Europe, while intact forest pastures are still found in eastern Europe, especially Romania. In the Mediterranean region, oak savannas are still widespread, especially on the Iberian Peninsula.[29]

In the Mediterranean

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In the Western Mediterranean, oak savannas, known as dehesas in Spanish and montados in Portuguese, are at present widespread, concentrated in Southern Portugal, the Extremadura and Andalusia. They are actively managed and used for the production of cork and as pastures for Spanish fighting bulls and the black Iberian pig for the production of Jamón ibérico, among other uses. The main tree components are ballota oak (Quercus rotundifolia) and cork oak (Quercus suber), but Portuguese oak (Quercus faginea) and Pyrenean oak (Quercus pyrenaica) may also be common.[29] Other oak species found in the area include Mirbeck's oak (Quercus canariensis), downy oak (Quercus pubescens), pedunculate oak (Quercus robur), sessile oak (Quercus petraea), Quercus estremadurensis, Quercus × cerrioides, kermes oak (Quercus coccifera) and Lusitanian oak (Quercus lusitanica).

In the Eastern Mediterranean, oak rangelands are still common landscape elements in Greece, Anatolia and the Levant.[29] They are formed by a number of oak species, including pedunculate oak (Quercus robur), sessile oak (Quercus petraea subsp. polycarpa), downy oak (Quercus pubescens), Hungarian oak (Quercus frainetto), Quercus dalechampii, Strandzha oak (Quercus hartwissiana), Austrian oak (Quercus cerris), Macedonian oak (Quercus trojana), holly oak (Quercus ilex), Kasnak oak (Quercus vulcanica), Aleppo oak (Quercus infectoria), Lebanon oak (Quercus libani), Tabor oak (Quercus ithaburensis), Valonia oak (Quercus ithaburensis subsp. macrolepis), Brant's oak (Quercus brantii), Quercus aucheri, Quercus look and kermes oak (Quercus coccifera).

See also

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References

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  1. ^ a b c d Nuzzo, Victoria A. (1986). "Extent and Status of Midwest Oak Savanna: Presettlement and 1985". Natural Areas Journal. 6 (2): 6–36. ISSN 0885-8608. JSTOR 43910878.
  2. ^ Aronson, James; Pereira, João Santos; Pausas, Juli G. (26 September 2012). Cork Oak Woodlands on the Edge: Ecology, Adaptive Management, and Restoration. Island Press. ISBN 9781610911306.
  3. ^ McPherson, Guy R. (2023-01-10). Ecology and Management of North American Savannas. University of Arizona Press. doi:10.2307/j.ctv34h09q6. ISBN 978-0-8165-5243-6. JSTOR j.ctv34h09q6.
  4. ^ Anderson, Roger C.; Fralish, James S.; Baskin, Jerry M., eds. (1999-07-28). Savannas, Barrens, and Rock Outcrop Plant Communities of North America (1 ed.). Cambridge University Press. doi:10.1017/cbo9780511574627. ISBN 978-0-521-57322-1.
  5. ^ Bartolome, James W. (1987). "California Annual Grassland and Oak Savannah". Rangelands. 9 (3): 122–125. ISSN 0190-0528. JSTOR 3901045.
  6. ^ https://efotg.sc.egov.usda.gov/references/Delete/2015-11-7/Archived_Oak_Savanna_Information_Sheet_408_151105.pdf
  7. ^ Penfound, W.T. (1962). "The savanna concept in Oklahoma". Ecology. 43 (4): 774–775. Bibcode:1962Ecol...43..774P. doi:10.2307/1933481. JSTOR 1933481.
  8. ^ Abrams, M.D. (1992). "Fire and the development of oak forests". BioScience. 42 (5): 346–353. doi:10.2307/1311781. JSTOR 1311781. S2CID 56082217.
  9. ^ Packard, Steve (1988-06-20). "Chronicles of Restoration: Just a Few Oddball Species: Restoration and the Rediscovery of the Tallgrass Savanna". Ecological Restoration. 6 (1): 13–22. doi:10.3368/er.6.1.13. ISSN 1543-4060. JSTOR 43439280.
  10. ^ a b https://www.fs.usda.gov/nrs/pubs/jrnl/2017/nrs_2017_dey_001.pdf
  11. ^ a b Dey, Daniel. "Restoration of Midwestern Oak Woodlands and Savannas" (PDF). Retrieved February 19, 2021.
  12. ^ Granado-Díaz, Rubén; Villanueva, Anastasio J.; Colombo, Sergio (2024-06-01). "Land manager preferences for outcome-based payments for environmental services in oak savannahs". Ecological Economics. 220: 108158. Bibcode:2024EcoEc.22008158G. doi:10.1016/j.ecolecon.2024.108158. ISSN 0921-8009.
  13. ^ Blvd, Mailing Address: 111 E. Kellogg; Paul, Suite 105 Saint; Us, MN 55101 Phone: 651-293-0200 This is the general phone line at the Mississippi River Visitor Center Contact. "Oak Savanna - Mississippi National River & Recreation Area (U.S. National Park Service)". www.nps.gov. Retrieved 2024-10-22.{{cite web}}: CS1 maint: numeric names: authors list (link)
  14. ^ Olariu, Horia Gabriel; Wilcox, Bradford P.; Popescu, Sorin C. (2024-06-21). "Examining changes in woody vegetation cover in a human-modified temperate savanna in Central Texas between 1996 and 2022 using remote sensing". Frontiers in Forests and Global Change. 7. Bibcode:2024FrFGC...796999O. doi:10.3389/ffgc.2024.1396999. ISSN 2624-893X.
  15. ^ Jakes, P. (2006). Forestry cooperatives: what today's resource professionals need to know. Proceedings of a satellite conference; 2003 November 18 (PDF) (Report). doi:10.2737/NC-GTR-266.
  16. ^ Garrastatxu, Jon; Odriozola, Iñaki; Esteban, Raquel; Encinas-Valero, Manuel; Morais, Daniel Kumazawa; Větrovský, Tomáš; Yuste, Jorge Curiel (2024-03-01). "Fungal symbionts associate with holm oak tree health in declining oak savannas of the southwest of the Iberian Peninsula". Applied Soil Ecology. 195: 105210. Bibcode:2024AppSE.19505210G. doi:10.1016/j.apsoil.2023.105210. ISSN 0929-1393.
  17. ^ Encinas-Valero, Manuel; Esteban, Raquel; Hereş, Ana-Maria; Vivas, María; Solla, Alejandro; Moreno, Gerardo; Corcobado, Tamara; Odriozola, Iñaki; Garbisu, Carlos; Epelde, Lur; Curiel Yuste, Jorge (February 2024). "Alteration of the tree–soil microbial system triggers a feedback loop that boosts holm oak decline". Functional Ecology. 38 (2): 374–390. Bibcode:2024FuEco..38..374E. doi:10.1111/1365-2435.14473. ISSN 0269-8463.
  18. ^ Hsiao, Che-Jen; Leite, Pedro A. M.; Hyodo, Ayumi; Boutton, Thomas W. (2024-02-06). "Soil carbon, nitrogen, and phosphorus storage in juniper–oak savanna: role of vegetation and geology". SOIL. 10 (1): 93–108. Bibcode:2024SOIL...10...93H. doi:10.5194/soil-10-93-2024. ISSN 2199-3971.
  19. ^ Stevens, William K.; Wynne, Patricia J. (1996-05-01). Miracle Under the Oaks: The Revival of Nature in America. Gallery Books. ISBN 978-0-671-78045-6.
  20. ^ "Bald Hill Park". Retrieved April 30, 2020.
  21. ^ "Bald Hill Natural Area". Retrieved April 30, 2020.
  22. ^ a b "Oak Savannas : characteristics, restoration and long-term management". www.oaksavannas.org. Retrieved 2021-02-20.
  23. ^ "Oak regeneration failure", Wikipedia, 2024-02-22, retrieved 2024-03-30
  24. ^ Valadi, Gelareh; Eshaghi Rad, Javad; Khodakarami, Yahia; Harper, Karen Amanda (2023-11-29). "Conflicting edge influence on herbaceous species in open areas vs. underneath oak trees in forest fragments in Iran". Plant Ecology. 225 (4): 403–412. doi:10.1007/s11258-023-01368-4. ISSN 1573-5052.
  25. ^ "Conrad Station Savanna". The Nature Conservancy. Retrieved 2023-11-19.
  26. ^ "Restoration Resource Center USA: Minnesota: Oak Savanna Restoration along an Urban River". www.ser-rrc.org. Retrieved 2019-12-26.
  27. ^ "Pleasant Valley Conservancy".
  28. ^ "Belwin Conservancy".
  29. ^ a b c Hartel, Tibor; Plieninger, Tobias, eds. (2014). European Wood-pastures in Transition. Routledge. ISBN 978-0-8153-9531-7.
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