-
@ 6389be64:ef439d32
2025-02-25 05:53:41
Biochar in the soil attracts microbes who take up permanent residence in the "coral reef" the biochar provides. Those microbes then attract mycorrhizal fungi to the reef. The mycorrhizal fungi are also attached to plant roots connecting diverse populations to each other, allowing transportation of molecular resources (water, cations, anions etc).
The char surface area attracts positively charged ions like
K+
Ca2+
Mg2+
NH4+
Na+
H+
Al3+
Fe2+
Fe3+
Mn2+
Cu2+
Zn2+
Many of these are transferred to plant roots by mycorrhizal fungi in exchange for photosynthetic products (sugars). Mycorrhizal fungi are connected to both plant roots and biochar. Char adsorbs these cations so, it stands to reason that under periods of minimal need by plants for these cations (stress, low or no sunlight etc.), mycorrhizal fungi could deposit the cations to the char surfaces. The char would be acting as a "bank" for the cations and the deposition would be of low energy cost.
Once the plant starts exuding photosynthetic products again, signaling a need for these cations, the fungi can start "stripping" the cations off of the char surface for immediate exchange of the cations for the sugars. This would be a high energy transaction because the fungi would have to expend energy to strip the cations off of the char surface, in effect, an "interest rate".
The char might act as a reservoir of cations that were mined by the fungi while the sugar flow from the roots was active. It's a bank.
originally posted at https://stacker.news/items/896340
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@ 04c915da:3dfbecc9
2025-02-25 03:55:08
Here’s a revised timeline of macro-level events from *The Mandibles: A Family, 2029–2047* by Lionel Shriver, reimagined in a world where Bitcoin is adopted as a widely accepted form of money, altering the original narrative’s assumptions about currency collapse and economic control. In Shriver’s original story, the failure of Bitcoin is assumed amid the dominance of the bancor and the dollar’s collapse. Here, Bitcoin’s success reshapes the economic and societal trajectory, decentralizing power and challenging state-driven outcomes.
### Part One: 2029–2032
- **2029 (Early Year)**\
The United States faces economic strain as the dollar weakens against global shifts. However, Bitcoin, having gained traction emerges as a viable alternative. Unlike the original timeline, the bancor—a supranational currency backed by a coalition of nations—struggles to gain footing as Bitcoin’s decentralized adoption grows among individuals and businesses worldwide, undermining both the dollar and the bancor.
- **2029 (Mid-Year: The Great Renunciation)**\
Treasury bonds lose value, and the government bans Bitcoin, labeling it a threat to sovereignty (mirroring the original bancor ban). However, a Bitcoin ban proves unenforceable—its decentralized nature thwarts confiscation efforts, unlike gold in the original story. Hyperinflation hits the dollar as the U.S. prints money, but Bitcoin’s fixed supply shields adopters from currency devaluation, creating a dual-economy split: dollar users suffer, while Bitcoin users thrive.
- **2029 (Late Year)**\
Dollar-based inflation soars, emptying stores of goods priced in fiat currency. Meanwhile, Bitcoin transactions flourish in underground and online markets, stabilizing trade for those plugged into the bitcoin ecosystem. Traditional supply chains falter, but peer-to-peer Bitcoin networks enable local and international exchange, reducing scarcity for early adopters. The government’s gold confiscation fails to bolster the dollar, as Bitcoin’s rise renders gold less relevant.
- **2030–2031**\
Crime spikes in dollar-dependent urban areas, but Bitcoin-friendly regions see less chaos, as digital wallets and smart contracts facilitate secure trade. The U.S. government doubles down on surveillance to crack down on bitcoin use. A cultural divide deepens: centralized authority weakens in Bitcoin-adopting communities, while dollar zones descend into lawlessness.
- **2032**\
By this point, Bitcoin is de facto legal tender in parts of the U.S. and globally, especially in tech-savvy or libertarian-leaning regions. The federal government’s grip slips as tax collection in dollars plummets—Bitcoin’s traceability is low, and citizens evade fiat-based levies. Rural and urban Bitcoin hubs emerge, while the dollar economy remains fractured.
### Time Jump: 2032–2047
- Over 15 years, Bitcoin solidifies as a global reserve currency, eroding centralized control. The U.S. government adapts, grudgingly integrating bitcoin into policy, though regional autonomy grows as Bitcoin empowers local economies.
### Part Two: 2047
- **2047 (Early Year)**\
The U.S. is a hybrid state: Bitcoin is legal tender alongside a diminished dollar. Taxes are lower, collected in BTC, reducing federal overreach. Bitcoin’s adoption has decentralized power nationwide. The bancor has faded, unable to compete with Bitcoin’s grassroots momentum.
- **2047 (Mid-Year)**\
Travel and trade flow freely in Bitcoin zones, with no restrictive checkpoints. The dollar economy lingers in poorer areas, marked by decay, but Bitcoin’s dominance lifts overall prosperity, as its deflationary nature incentivizes saving and investment over consumption. Global supply chains rebound, powered by bitcoin enabled efficiency.
- **2047 (Late Year)**\
The U.S. is a patchwork of semi-autonomous zones, united by Bitcoin’s universal acceptance rather than federal control. Resource scarcity persists due to past disruptions, but economic stability is higher than in Shriver’s original dystopia—Bitcoin’s success prevents the authoritarian slide, fostering a freer, if imperfect, society.
### Key Differences
- **Currency Dynamics**: Bitcoin’s triumph prevents the bancor’s dominance and mitigates hyperinflation’s worst effects, offering a lifeline outside state control.
- **Government Power**: Centralized authority weakens as Bitcoin evades bans and taxation, shifting power to individuals and communities.
- **Societal Outcome**: Instead of a surveillance state, 2047 sees a decentralized, bitcoin driven world—less oppressive, though still stratified between Bitcoin haves and have-nots.
This reimagining assumes Bitcoin overcomes Shriver’s implied skepticism to become a robust, adopted currency by 2029, fundamentally altering the novel’s bleak trajectory.
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@ d34e832d:383f78d0
2025-02-24 21:09:52
https://blossom.primal.net/af0bc86b52c7f91c26633ed0cba4f151bb74e5a5702b892f7f1efaa9e4640018.mp4
[npub16d8gxt2z4k9e8sdpc0yyqzf5gp0np09ls4lnn630qzxzvwpl0rgq5h4rzv]
### **What is Reticulum?**
Reticulum is a cryptographic networking stack designed for resilient, decentralized, and censorship-resistant communication. Unlike the traditional internet, Reticulum enables fully independent digital communications over various physical mediums, such as radio, LoRa, serial links, and even TCP/IP.
The key advantages of Reticulum include:
- **Decentralization** – No reliance on centralized infrastructure.
- **Encryption & Privacy** – End-to-end encryption built-in.
- **Resilience** – Operates over unreliable and low-bandwidth links.
- **Interoperability** – Works over WiFi, LoRa, Bluetooth, and more.
- **Ease of Use** – Can run on minimal hardware, including Raspberry Pi and embedded devices.
Reticulum is ideal for off-grid, censorship-resistant communications, emergency preparedness, and secure messaging.
---
## **1. Getting Started with Reticulum**
To quickly get started with Reticulum, follow the official guide:
[Reticulum: Getting Started Fast](https://markqvist.github.io/Reticulum/manual/gettingstartedfast.html)
### **Step 1: Install Reticulum**
#### **On Linux (Debian/Ubuntu-based systems)**
```sh
sudo apt update && sudo apt upgrade -y
sudo apt install -y python3-pip
pip3 install rns
```
#### **On Raspberry Pi or ARM-based Systems**
```sh
pip3 install rns
```
#### **On Windows**
Using Windows Subsystem for Linux (WSL) or Python:
```sh
pip install rns
```
#### **On macOS**
```sh
pip3 install rns
```
---
## **2. Configuring Reticulum**
Once installed, Reticulum needs a configuration file. The default location is:
```sh
~/.config/reticulum/config.toml
```
To generate the default configuration:
```sh
rnsd
```
This creates a configuration file with default settings.
---
## **3. Using Reticulum**
### **Starting the Reticulum Daemon**
To run the Reticulum daemon (`rnsd`), use:
```sh
rnsd
```
This starts the network stack, allowing applications to communicate over Reticulum.
### **Testing Your Reticulum Node**
Run the diagnostic tool to ensure your node is functioning:
```sh
rnstatus
```
This shows the status of all connected interfaces and peers.
---
## **4. Adding Interfaces**
### **LoRa Interface (for Off-Grid Communications)**
Reticulum supports long-range LoRa radios like the **RAK Wireless** and **Meshtastic devices**. To add a LoRa interface, edit `config.toml` and add:
```toml
[[interfaces]]
type = "LoRa"
name = "My_LoRa_Interface"
frequency = 868.0
bandwidth = 125
spreading_factor = 9
```
Restart Reticulum to apply the changes.
### **Serial (For Direct Device-to-Device Links)**
For communication over serial links (e.g., between two Raspberry Pis):
```toml
[[interfaces]]
type = "Serial"
port = "/dev/ttyUSB0"
baudrate = 115200
```
### **TCP/IP (For Internet-Based Nodes)**
If you want to bridge your Reticulum node over an existing IP network:
```toml
[[interfaces]]
type = "TCP"
listen = true
bind = "0.0.0.0"
port = 4242
```
---
## **5. Applications Using Reticulum**
### **LXMF (LoRa Mesh Messaging Framework)**
LXMF is a delay-tolerant, fully decentralized messaging system that operates over Reticulum. It allows encrypted, store-and-forward messaging without requiring an always-online server.
To install:
```sh
pip3 install lxmf
```
To start the LXMF node:
```sh
lxmfd
```
### **Nomad Network (Decentralized Chat & File Sharing)**
Nomad is a Reticulum-based chat and file-sharing platform, ideal for **off-grid** communication.
To install:
```sh
pip3 install nomad-network
```
To run:
```sh
nomad
```
### **Mesh Networking with Meshtastic & Reticulum**
Reticulum can work alongside **Meshtastic** for true decentralized long-range communication.
To set up a Meshtastic bridge:
```toml
[[interfaces]]
type = "LoRa"
port = "/dev/ttyUSB0"
baudrate = 115200
```
---
## **6. Security & Privacy Features**
- **Automatic End-to-End Encryption** – Every message is encrypted by default.
- **No Centralized Logging** – Communication leaves no metadata traces.
- **Self-Healing Routing** – Designed to work in unstable or hostile environments.
---
## **7. Practical Use Cases**
- **Off-Grid Communication** – Works in remote areas without cellular service.
- **Censorship Resistance** – Cannot be blocked by ISPs or governments.
- **Emergency Networks** – Enables resilient communication during disasters.
- **Private P2P Networks** – Create a secure, encrypted communication layer.
---
## **8. Further Exploration & Documentation**
- **Reticulum Official Manual**: [https://markqvist.github.io/Reticulum/manual/](https://markqvist.github.io/Reticulum/manual/)
- **Reticulum GitHub Repository**: [https://github.com/markqvist/Reticulum](https://github.com/markqvist/Reticulum)
- **Nomad Network**: [https://github.com/markqvist/NomadNet](https://github.com/markqvist/NomadNet)
- **Meshtastic + Reticulum**: [https://meshtastic.org](https://meshtastic.org)
---
## **Connections (Links to Other Notes)**
- **Mesh Networking for Decentralized Communication**
- **LoRa and Off-Grid Bitcoin Transactions**
- **Censorship-Resistant Communication Using Nostr & Reticulum**
## **Tags**
#Reticulum #DecentralizedComms #MeshNetworking #CensorshipResistance #LoRa
## **Donations via**
- **Bitcoin Lightning**: lightninglayerhash@getalby.com