Subterranean Desert Rodents (Genus Ctenomys) Create Soil Patches Enriched in Root Endophytic Fungal Propagules

Miranda, Victoria; Rothen, Carolina Paola; Yela, Natalia; Aranda-Rickert, Adriana; Barros, Johana; Calcagno, Javier Á.; Fracchia, Sebastián

doi:10.1007/s00248-018-1227-8

Cited by 27 publications

(16 citation statements)

References 65 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…We summarised the roles of bioturbator mammals in maintaining ecosystem processes and health, which goes beyond soil disturbance and includes changes in biotic and abiotic habitat characteristics, directly or indirectly affecting the availability of resources to other organisms (Desbiez & Kluyber 2013). Bioturbators also affect soil compaction (Palmer et al 2021), soil moisture (Garkaklis et al 1998), microbe diversity (Miranda et al 2019), nutrient cycling (Hagenah & Bennett 2013), plant germination and recruitment (Villarreal et al 2008, Radnan & Eldridge 2017), and fire regimes (Ryan et al 2020). Nevertheless, it is important to identify which species and processes are associated with bioturbator mammals to determine under what conditions these interactions can be positive, neutral, or negative.…”

Section: Discussionmentioning

confidence: 99%

“…This also helps pioneer plants during early successional stages. Through the action of moving buried soil that contains viable arbuscular mycorrhizae spores and mycorrhizal root fragments, tuco‐tucos provide improved conditions for plant development and growth (Miranda et al 2019).…”

Section: Bioturbator Mammals As Ecosystem Engineersmentioning

confidence: 99%

“…1). By disturbing the soil, these animals break the soil surface layer, increasing water infiltration, soil moisture, and the capture of organic matter (Miranda et al 2019, Halstead et al 2020). These animals can also contribute to improved soil health by increasing nutrient cycling through soil turnover, where the litter and debris are carried below the surface while deeper soils are unearthed, altering soil structure and composition (Reichman & Seabloom 2002, Valentine 2014, Platt et al 2016).…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Ecosystem roles and conservation status of bioturbator mammals

et al. 2021

View full text Add to dashboard Cite

1. The action of biological reworking of soils is referred to as bioturbation, and many species of mammals globally have an important role in soil disturbance, modifying ecosystem characteristics. 2. We examined global patterns in the distribution, conservation status, and threats to the world's bioturbator mammals and illustrated the relevant roles these species play in ecosystem engineering related to soil processes and services. We searched the data available on 3932 non-flying land-dwelling mammals included in the International Union for Conservation of Nature's (IUCN) Red List. 3. Using existing literature and online databases, we determined that 869 (22%) of the non-flying land-dwelling mammals accessed can be considered as bioturbators in three distinct groups: foragers (n = 123), semi-fossorial species (n = 652), and strictly fossorial species (n = 94). Of the world's bioturbator mammal species, 16% are threatened, 2% are already Extinct, and 8% are classified as Data Deficient. Foragers have the highest percentage of threatened (35%) and Extinct (5%) species, while strictly fossorial species have the highest percentage of Data Deficient species (12%). Although the majority of bioturbator mammal species are found in Asia (32%), Oceania is the continent with the highest percentage of threatened (27%) and Extinct (11%) bioturbator species, while Central and South America have the highest percentage of species classified as Data Deficient (24%). The threats experienced by the greatest number of bioturbator mammal species are activities related to agriculture and aquaculture (29%), and biological resource use (22%). 4. Soil bioturbation can improve ecosystem health by reducing soil compaction, increasing nutrient cycling, soil moisture, microbe diversity, plant recruitment, and carbon storage. The loss of bioturbator mammals could trigger cascading effects throughout the ecosystems they inhabit. A better understanding of their conservation status is important so that effective conservation measures can be developed.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Bioturbator Mammals As Ecosystem Engineersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Ecosystem roles and conservation status of bioturbator mammals

et al. 2021

View full text Add to dashboard Cite

show abstract

“…At the time of and after the release of exudates, microbes act on the organic matters and hence enriching and separating it from the roots in the usual environments is challenging. Data have been obtained from hydroponic cultures that are sterile and these revealed the nature and quantitative levels of exudates from roots, but then extrapolating the results to the natural situations is difficult [30]. Furthermore, from this perspective, quantification of exudation from the root was done by measuring the labeled CO 2 produced in the rhizosphere soil of the plant labeled 14C.…”

Section: Root Exudation Mechanismmentioning

confidence: 99%

Bacteria, Fungi and Archaea Domains in Rhizospheric Soil and Their Effects in Enhancing Agricultural Productivity

Odelade

Babalola

2019

IJERPH

View full text Add to dashboard Cite

The persistent and undiscriminating application of chemicals as means to improve crop growth, development and yields for several years has become problematic to agricultural sustainability because of the adverse effects these chemicals have on the produce, consumers and beneficial microbes in the ecosystem. Therefore, for agricultural productivity to be sustained there are needs for better and suitable preferences which would be friendly to the ecosystem. The use of microbial metabolites has become an attractive and more feasible preference because they are versatile, degradable and ecofriendly, unlike chemicals. In order to achieve this aim, it is then imperative to explore microbes that are very close to the root of a plant, especially where they are more concentrated and have efficient activities called the rhizosphere. Extensive varieties of bacteria, archaea, fungi and other microbes are found inhabiting the rhizosphere with various interactions with the plant host. Therefore, this review explores various beneficial microbes such as bacteria, fungi and archaea and their roles in the environment in terms of acquisition of nutrients for plants for the purposes of plant growth and health. It also discusses the effect of root exudate on the rhizosphere microbiome and compares the three domains at molecular levels.

show abstract

“…Dependiendo del grado de utilización de dichas galerías, se distinguen mamíferos subterráneos, que realizan parte de sus actividades vitales bajo tierra y mamíferos fosoriales y semifosoriales, que utilizan sus galerías como refugio, realizando las actividades de forrajeo en la superficie (Begall et al, 2007). En zonas áridas este tipo de actividad conductual cumple un importante rol ecológico, debido a que a través de la construcción de galerías se modifican las propiedades microbiológicas y fisicoquímicas del suelo, generando de esta forma "islas de fertilidad" que propician el establecimiento de vegetación (Miranda et al, 2018).…”

Section: Introductionunclassified

Parámetros hematológicos del roedor subterráneo Spalacopus cyanus (Rodentia: Octodontidae)

et al. 2019

View full text Add to dashboard Cite

Resumen Describimos los parámetros hematológicos del roedor subterráneo endémico de Chile Spalacopus cyanus (Rodentia, Octodontidae). Nuestros resultados indican que presenta una condición hematológica que difiere en los altos valores de Hb por eritrocito (HCM) encontrados en roedores de hábitos típicamente subterráneos, donde su HCM representa 49.9 y 47.2% de lo informado para Ctenomys talarum y Ctenomys australis. Sin embargo, S. cyanus presenta algunas características hematológicas que incrementarían su capacidad de transporte de oxígeno en la sangre, tales como un elevado número de glóbulos rojos y un reducido tamaño de éstos. Aunque nuestros resultados contribuyen a la comprensión de los atributos que explican el uso del ecotopo subterráneo por esta especie, se requieren estudios que informen sobre las condiciones atmosféricas de sus galerías, el efecto del tipo de suelo sobre estas últimas, afinidad del O 2 por la hemoglobina (efecto del 2.3 DPG) y los niveles de expresión de los genes EPO y HIF-1α bajo normoxia e hipoxia.

show abstract

Subterranean Desert Rodents (Genus Ctenomys) Create Soil Patches Enriched in Root Endophytic Fungal Propagules

Cited by 27 publications

References 65 publications

Ecosystem roles and conservation status of bioturbator mammals

Ecosystem roles and conservation status of bioturbator mammals

Bacteria, Fungi and Archaea Domains in Rhizospheric Soil and Their Effects in Enhancing Agricultural Productivity

Parámetros hematológicos del roedor subterráneo Spalacopus cyanus (Rodentia: Octodontidae)

Contact Info

Product

Resources

About