Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town
Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the e...
Ausführliche Beschreibung
Gespeichert in:
| Autor*in: |
Waller, P.A. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2016transfer abstract |
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| Umfang: |
17 |
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| Übergeordnetes Werk: |
Enthalten in: Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer - Ueda, Yoshihiro ELSEVIER, 2020, an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists, Amsterdam |
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| Übergeordnetes Werk: |
volume:103 ; year:2016 ; pages:193-209 ; extent:17 |
| Links: |
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| DOI / URN: |
10.1016/j.sajb.2015.09.009 |
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| 520 | |a Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. | ||
| 520 | |a Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. | ||
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| 700 | 1 | |a Holmes, P.M. |4 oth | |
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10.1016/j.sajb.2015.09.009 doi GBVA2016008000006.pica (DE-627)ELV024320919 (ELSEVIER)S0254-6299(15)00403-2 DE-627 ger DE-627 rakwb eng 580 580 DE-600 610 VZ 44.64 bkl 44.81 bkl Waller, P.A. verfasserin aut Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town 2016transfer abstract 17 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Anderson, P.M.L. oth Holmes, P.M. oth Allsopp, N. oth Enthalten in Elsevier Ueda, Yoshihiro ELSEVIER Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer 2020 an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists Amsterdam (DE-627)ELV005259444 volume:103 year:2016 pages:193-209 extent:17 https://doi.org/10.1016/j.sajb.2015.09.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.64 Radiologie VZ 44.81 Onkologie VZ AR 103 2016 193-209 17 045F 580 |
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10.1016/j.sajb.2015.09.009 doi GBVA2016008000006.pica (DE-627)ELV024320919 (ELSEVIER)S0254-6299(15)00403-2 DE-627 ger DE-627 rakwb eng 580 580 DE-600 610 VZ 44.64 bkl 44.81 bkl Waller, P.A. verfasserin aut Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town 2016transfer abstract 17 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Anderson, P.M.L. oth Holmes, P.M. oth Allsopp, N. oth Enthalten in Elsevier Ueda, Yoshihiro ELSEVIER Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer 2020 an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists Amsterdam (DE-627)ELV005259444 volume:103 year:2016 pages:193-209 extent:17 https://doi.org/10.1016/j.sajb.2015.09.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.64 Radiologie VZ 44.81 Onkologie VZ AR 103 2016 193-209 17 045F 580 |
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10.1016/j.sajb.2015.09.009 doi GBVA2016008000006.pica (DE-627)ELV024320919 (ELSEVIER)S0254-6299(15)00403-2 DE-627 ger DE-627 rakwb eng 580 580 DE-600 610 VZ 44.64 bkl 44.81 bkl Waller, P.A. verfasserin aut Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town 2016transfer abstract 17 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Anderson, P.M.L. oth Holmes, P.M. oth Allsopp, N. oth Enthalten in Elsevier Ueda, Yoshihiro ELSEVIER Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer 2020 an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists Amsterdam (DE-627)ELV005259444 volume:103 year:2016 pages:193-209 extent:17 https://doi.org/10.1016/j.sajb.2015.09.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.64 Radiologie VZ 44.81 Onkologie VZ AR 103 2016 193-209 17 045F 580 |
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10.1016/j.sajb.2015.09.009 doi GBVA2016008000006.pica (DE-627)ELV024320919 (ELSEVIER)S0254-6299(15)00403-2 DE-627 ger DE-627 rakwb eng 580 580 DE-600 610 VZ 44.64 bkl 44.81 bkl Waller, P.A. verfasserin aut Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town 2016transfer abstract 17 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Anderson, P.M.L. oth Holmes, P.M. oth Allsopp, N. oth Enthalten in Elsevier Ueda, Yoshihiro ELSEVIER Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer 2020 an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists Amsterdam (DE-627)ELV005259444 volume:103 year:2016 pages:193-209 extent:17 https://doi.org/10.1016/j.sajb.2015.09.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.64 Radiologie VZ 44.81 Onkologie VZ AR 103 2016 193-209 17 045F 580 |
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10.1016/j.sajb.2015.09.009 doi GBVA2016008000006.pica (DE-627)ELV024320919 (ELSEVIER)S0254-6299(15)00403-2 DE-627 ger DE-627 rakwb eng 580 580 DE-600 610 VZ 44.64 bkl 44.81 bkl Waller, P.A. verfasserin aut Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town 2016transfer abstract 17 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. Anderson, P.M.L. oth Holmes, P.M. oth Allsopp, N. oth Enthalten in Elsevier Ueda, Yoshihiro ELSEVIER Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer 2020 an international interdisciplinary journal for botanical sciences : official journal of the South African Association of Botanists Amsterdam (DE-627)ELV005259444 volume:103 year:2016 pages:193-209 extent:17 https://doi.org/10.1016/j.sajb.2015.09.009 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U SSG-OLC-PHA 44.64 Radiologie VZ 44.81 Onkologie VZ AR 103 2016 193-209 17 045F 580 |
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Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer |
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Characterization of knowledge-based volumetric modulated arc therapy plans created by three different institutions’ models for prostate cancer |
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seedling recruitment responses to interventions in seed-based ecological restoration of peninsula shale renosterveld, cape town |
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Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town |
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Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. |
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Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. |
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Peninsula Shale Renosterveld, a Critically Endangered ecosystem, requires ecological restoration intervention on transformed areas. Yet there is little guidance due to very few renosterveld studies and limited knowledge of the mechanisms driving ecological responses. This study set out to test the effects of 32 interventions, comprised of five crossed factors (seeding of 31 species, fire, tillage, herbicide application and rodent exclusion), on vegetation recruitment on a site dominated by alien, annual grasses. Actual experimental responses were compared with predicted responses presented in an a priori ecological-response model. Responses to the interventions were highly variable. Sowing on its own was almost ineffectual, but restoration of species was enhanced when seeding was implemented with one or more of the other factors. In combination with other treatments, seeding made significant contributions to overall seedling density, species richness and canopy cover and is imperative if this ecosystem is to recover from extensive alien grass invasion. Several three- to five-factor interventions resulted in a full set of desired responses. Half of the responses predicted in an ecological-response model were confirmed. Study outcomes have the potential to guide future research and implementation of larger scale renosterveld restoration. |
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Seedling recruitment responses to interventions in seed-based ecological restoration of Peninsula Shale Renosterveld, Cape Town |
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