Chinese hackberry
Celtis sinensis
Celtis sinensis, also known as Chinese hackberry, is a plant native to East Asia. Traditionally, its use has not been well-documented in any specific medical or folk practices. Scientific studies have focused on its physiological responses to environmental factors such as nitrogen addition and light conditions. Nitrogen application was found to increase leaf dry matter content while slightly decreasing specific leaf area, with no significant interactions noted between nitrogen and water. Additionally, research indicates that Celtis sinensis exhibits high ozone resistance due to higher leaf capacitance but shows reduced stomatal sensitivity compared to Quercus species. Under temporally heterogeneous light conditions, Celtis sinensis demonstrated improved late growth in biomass relative to constant moderate shading. No major safety concerns or drug interactions have been recorded for Celtis sinensis based on current research. However, further studies are needed to fully understand its potential applications and impacts.
- Beste Evidenz
- D
- Warnhinweise
- —
Nur zur Information. Traditionelle Anwendung bedeutet keine nachgewiesene Wirksamkeit. Evidenz und Sicherheit variieren — siehe die angegebenen Quellen.
Was die Wissenschaft sagt
- Die Nährstoffzufuhr mit Stickstoff hat das Trockenheitsgehalt der Blätter erheblich erhöht und die spezifische Blattfläche verringert, ohne dass eine bemerkbare Wirkung durch die Interaktion von Stickstoff und Wasser zu beobachten war bei Celtis sinensis.
- Die Studie deutet darauf hin, dass die Verwendung von Terahertz-Sensoren mit Quantenkarosse-Lasern und Laserschwingungsinterferometrie Potenzial für den Überwachung der Wassergehaltsniveaus in den Blättern von Celtis sinensis haben könnte.
- Celtis sinensis zeigte eine verbesserte späte Wachstumsrate in der Biomasse unter zeitlich heterogenen Lichtbedingungen im Vergleich zu konstanter moderater Schattierung.
- Celtis sinensis hielt die Photosyntheseraten bei Ozonverschmutzung dank höherer Blattkapazität bei, zeigte aber eine reduzierte Stomatalsensitivität.
Frequently asked questions
What is Chinese hackberry?
Chinese hackberry (Celtis sinensis) is a plant documented in FolkKB's traditional-medicine reference, drawn from sourced literature and cross-checked against the evidence.
What does the scientific evidence say about Chinese hackberry?
4 sourced findings are recorded for Chinese hackberry; the strongest carries evidence grade D. For example: Die Nährstoffzufuhr mit Stickstoff hat das Trockenheitsgehalt der Blätter erheblich erhöht und die spezifische Blattfläche verringert, ohne dass eine bemerkbare Wirkung durch die Interaktion von Stickstoff und Wasser zu beobachten war bei Celtis sinensis.
How strong is the evidence for Chinese hackberry?
The strongest finding for Chinese hackberry carries evidence grade D — preliminary or traditional. Grades run A (strongest) to D (preliminary or traditional).
Is Chinese hackberry safe? What are the side effects?
No major safety issues are recorded for Chinese hackberry in our sources, but the data may be incomplete. Consult a qualified professional before use.
Does Chinese hackberry interact with medications?
No drug interactions are recorded for Chinese hackberry in our sources. This does not rule them out — check with a pharmacist.
What are the common names of Chinese hackberry?
Chinese hackberry is also known as: каркас китайский.
Is Chinese hackberry a proven treatment?
No. FolkKB is informational only. Traditional use and early findings are not proof of efficacy or safety — consult a qualified professional and never self-treat.
Quellen
- T2 Contrasting effects of experiencing temporally heterogeneous light availability versus homogenous shading on plant subsequent responses to light conditions. literature abstract metadata
- T2 Coherent terahertz laser feedback interferometry for hydration sensing in leaves. literature abstract metadata
- T2 Leaf water relations determine the trade-off between ozone resistance and stomatal functionality in urban tree species. literature abstract metadata
- T2 Influence of nitrogen water interaction on leaf functional traits of dominant species in warm temperate forest. literature abstract metadata