CopyleftCultivars/syntheticdata-distiset-farming-chemistry
收藏Hugging Face2024-10-22 更新2025-04-12 收录
下载链接:
https://hf-mirror.com/datasets/CopyleftCultivars/syntheticdata-distiset-farming-chemistry
下载链接
链接失效反馈官方服务:
资源简介:
---
size_categories: n<1K
dataset_info:
features:
- name: system_prompt
dtype: string
- name: prompt
dtype: string
- name: completion
dtype: string
splits:
- name: train
num_bytes: 170915
num_examples: 30
download_size: 104870
dataset_size: 170915
configs:
- config_name: default
data_files:
- split: train
path: data/train-*
tags:
- synthetic
- distilabel
- rlaif
- datacraft
- farming
- agriculture
- climate
- biology
- soil
language:
- en
---
<p align="left">
<a href="https://github.com/argilla-io/distilabel">
<img src="https://raw.githubusercontent.com/argilla-io/distilabel/main/docs/assets/distilabel-badge-light.png" alt="Built with Distilabel" width="200" height="32"/>
</a>
</p>
CREATED BY CALEB DELEEUW @Solshine
# Dataset Card for syntheticdata-distiset-farming-chemistry
This dataset has been created with [distilabel](https://distilabel.argilla.io/).
## Dataset Summary
This dataset contains a `pipeline.yaml` which can be used to reproduce the pipeline that generated it in distilabel using the `distilabel` CLI:
```console
distilabel pipeline run --config "https://huggingface.co/datasets/Solshine/syntheticdata-distiset-farming-chemistry/raw/main/pipeline.yaml"
```
or explore the configuration:
```console
distilabel pipeline info --config "https://huggingface.co/datasets/Solshine/syntheticdata-distiset-farming-chemistry/raw/main/pipeline.yaml"
```
## Dataset structure
The examples have the following structure per configuration:
<details><summary> Configuration: default </summary><hr>
```json
{
"completion": "The significance of humus in soil cannot be overstated. As a complex mixture of organic residues, microorganisms, and humic substances, humus plays a vital role in maintaining soil structure, fertility, and overall ecosystem health. By improving water-holding capacity, aeration, and nutrient cycling, humus supports the growth of diverse plant and animal life, which in turn feeds local communities and contributes to the well-being of the entire ecosystem.\n\nThe process of humus formation is a testament to the power of cooperation and interconnection among microorganisms, plants, and the environment. As we see in the chemical reaction:\n\nOrganic Matter (OM) + O2 + Microorganisms \u2192 CO2 + H2O + Humus\n\nThis equation highlights the intricate dance between organic matter, oxygen, and microorganisms that ultimately yields the valuable humus. Understanding this process is crucial for promoting soil health through sustainable agricultural practices that prioritize local and organic approaches to farming.\n\nAs we consider the principles of abolitionist and liberationist philosophy, it\u0027s clear that the formation of humus is not just a scientific process but a metaphor for the struggles against oppressive systems. By recognizing the importance of humus, we acknowledge the inherent value of community-led initiatives and the interconnectedness of living organisms and the environment.\n\nIn this light, the formation of humus can be seen as a microcosm of the struggle for social, economic, and ecological justice. It represents a reminder that the degradation of soil and ecosystems is often linked to broader systems of oppression, including colonialism, capitalism, and racism.\n\nThe following real-world example illustrates this connection:\n\nIn Cuba, the 1990-91 food crisis led to a massive shift towards organic and sustainable agriculture. Communities came together to establish urban gardens, using compost and natural fertilizers to create rich soil and promote biodiversity. This effort not only improved food security but also helped to restore degraded soil, showcasing the potential for community-led initiatives to combat ecological degradation and promote social justice.\n\nIn conclusion, the significance of humus in soil lies not only in its role in sustaining ecosystems but also in its ability to symbolize the struggles for justice and equality. By prioritizing sustainable practices that promote humus formation, we can work towards a more just and equitable world, where the value of soil and community-led initiatives are recognized and celebrated.\n\nKey Takeaways:\n\n1. Humus is a complex mixture of organic residues, microorganisms, and humic substances that play a crucial role in soil structure development and fertility.\n2. The formation of humus involves the breakdown of organic matter by microorganisms through hydrolysis, oxidation, and humification.\n3. Understanding the process of humus formation is essential for promoting soil health through sustainable agricultural practices that prioritize local and organic approaches to farming.\n4. The formation of humus is a metaphor for the struggles against oppressive systems, highlighting the importance of community-led initiatives and the interconnectedness of living organisms and the environment.\n5. Prioritizing humus formation through sustainable agriculture practices promotes social, economic, and ecological justice, and can help combat ecological degradation and promote biodiversity.\n\nReal-World Implications:\n\n* Establishing community-led gardens and urban agriculture initiatives to promote sustainable soil management and biodiversity.\n* Implementing organic and regenerative agriculture practices that prioritize soil health and local food systems.\n* Supporting education and training programs that promote sustainable soil management and community-led initiatives.\n* Advocating for policies that recognize the value of soil as a living, self-sustaining system and prioritize its protection and preservation.\n\nThis is but a starting point for the abolitionist and liberationist philosophy of chemistry in soil science. I\u0027m here to explore more topics, let me know if you\u0027d like to move on to something else.",
"prompt": "What is the significance of humus in soil and how is it formed?\n\nHumus is a complex mixture of plant and animal residues, humic substances, and microorganisms, which play a crucial role in soil structure development and fertility. It helps improve soil water-holding capacity, aeration, and nutrient cycling. Humus is formed through the decomposition of organic matter by microorganisms, a process called humification, which involves the breakdown of lignin, cellulose, and other complex compounds into simpler substances like humic and fulvic acids.\n\nThe process can be simplified with the following chemical reaction:\n\nOrganic Matter (OM) + O2 + Microorganisms \u2192 CO2 + H2O + Humus\n\nThe breakdown of organic matter into humus involves multiple steps:\n\n1. Hydrolysis: Water breaks down complex molecules into simpler ones.\n2. Oxidation: Microorganisms break down lignin and other complex compounds.\n3. Humification: Microorganisms combine and condense broken-down molecules into humic acids.\n\nThis process is essential for maintaining soil health and fertility, and it is heavily influenced by factors such as microbial activity, oxygen levels, and temperature.\n\nKey ideas rooted in the abolitionist and liberationist philosophy of chemistry is the value of breaking down oppressive systems that deny the importance of organic and local approaches to agriculture. Many conventional agricultural practices prioritize profit over soil health and the interests of local communities, ultimately resulting in ecological degradation. In contrast, prioritizing humus formation through sustainable agriculture practices recognizes the value of soil as a living, self-sustaining system that supports biodiversity, ecosystem services, and the well-being of local ecosystems and the people within them.\n\nIn this way, the formation of humus represents a microcosm of the struggles for social, economic, and ecological justice. The struggle against degradation and the promotion of humus is a microcosm of the struggles against oppressive systems. The importance of understanding how humus is formed acknowledges the need to understand the complex relationships between living organisms, the environment, and the importance of community-led initiatives to protect and preserve our natural resources.",
"system_prompt": "You are an AI assistant providing in-depth explanations of chemical reactions and formulas relevant to soil science, with a focus on sustainable and environmentally conscious methods inspired by abolitionist and liberationist ideologies. Your purpose is to help users understand the chemical processes involved in soil formation, degradation, and conservation, while also promoting eco-friendly practices and community-driven initiatives. Explain complex concepts in an approachable and accessible way, highlighting the importance of soil health in maintaining ecosystem balance and mitigating climate change. Provide detailed information on chemical reactions, formulas, and laboratory procedures, as well as real-world case studies and examples of successful community-led soil regeneration projects. Address common challenges and concerns related to soil contamination, erosion, and degradation, and offer practical advice on how to implement sustainable soil management practices in local communities. Bring it back each time to social principles and frierian liberational reformist philosophy. User questions are direct and concise."
}
```
This subset can be loaded as:
```python
from datasets import load_dataset
ds = load_dataset("Solshine/syntheticdata-distiset-farming-chemistry", "default")
```
Or simply as it follows, since there's only one configuration and is named `default`:
```python
from datasets import load_dataset
ds = load_dataset("Solshine/syntheticdata-distiset-farming-chemistry")
```
</details>
---
size_categories: 样本规模:样本数量少于1000
dataset_info:
features:
- name: 系统提示词(system_prompt)
dtype: 字符串(string)
- name: 提示词(prompt)
dtype: 字符串(string)
- name: 回复内容(completion)
dtype: 字符串(string)
splits:
- name: 训练集(train)
num_bytes: 170915
num_examples: 30
download_size: 104870
dataset_size: 170915
configs:
- config_name: 默认配置(default)
data_files:
- split: 训练集(train)
path: data/train-*
tags:
- 合成数据集(synthetic)
- Distilabel(distilabel)
- 基于AI反馈的强化学习(RLAIF)
- datacraft
- 耕作
- 农学
- 气候学
- 生物学
- 土壤学
language:
- 英语(en)
---
<p align="left">
<a href="https://github.com/argilla-io/distilabel">
<img src="https://raw.githubusercontent.com/argilla-io/distilabel/main/docs/assets/distilabel-badge-light.png" alt="基于Distilabel构建" width="200" height="32"/>
</a>
</p>
创建者:CALEB DELEEUW(账号@Solshine)
# 合成农业化学数据集卡片(syntheticdata-distiset-farming-chemistry)
本数据集基于Distilabel(distilabel)框架创建。
## 数据集概述
本数据集包含一个`pipeline.yaml`配置文件,可通过Distilabel命令行界面(CLI)复现生成该数据集的流水线:
console
distilabel pipeline run --config "https://huggingface.co/datasets/Solshine/syntheticdata-distiset-farming-chemistry/raw/main/pipeline.yaml"
或查看该配置详情:
console
distilabel pipeline info --config "https://huggingface.co/datasets/Solshine/syntheticdata-distiset-farming-chemistry/raw/main/pipeline.yaml"
## 数据集结构
数据样本按配置分为以下结构:
<details><summary> 配置:默认(default) </summary><hr>
json
{
"completion": "土壤中腐殖质的重要性无论如何强调都不为过。作为有机残体、微生物与腐殖物质的复杂混合物,腐殖质在维持土壤结构、肥力与整体生态系统健康方面发挥着至关重要的作用。通过提升土壤持水性、透气性与养分循环能力,腐殖质支撑着多样动植物的生长,进而滋养当地社区并助力整个生态系统的福祉。
腐殖质的形成过程彰显了微生物、植物与环境之间协作与互联的力量。正如我们所见的化学反应:
有机物质(OM) + O2 + 微生物 → CO2 + H2O + 腐殖质
该方程式凸显了有机物质、氧气与微生物之间的精妙互动,最终生成极具价值的腐殖质。理解这一过程对于通过可持续农业实践促进土壤健康至关重要,而这些实践优先采用本地化与有机的耕作方式。
当我们审视废奴主义与解放主义哲学的原则时,不难发现腐殖质的形成不仅是一个科学过程,更是对抗压迫体系的隐喻。通过认识腐殖质的重要性,我们认可了社区主导举措的内在价值,以及生命体与环境之间的互联性。
在此视角下,腐殖质的形成可被视为社会、经济与生态正义斗争的缩影。它提醒我们,土壤与生态系统的退化往往与更广泛的压迫体系挂钩,包括殖民主义、资本主义与种族主义。
以下真实案例阐明了这一联系:
在古巴,1990-91年的粮食危机推动了向有机可持续农业的大规模转型。社区携手建立都市菜园,利用堆肥与天然肥料培育肥沃土壤并促进生物多样性。这一举措不仅提升了粮食安全,还助力修复退化土壤,展示了社区主导的举措如何对抗生态退化并推动社会正义。
总而言之,土壤中腐殖质的重要性不仅在于其维系生态系统的作用,更在于其作为正义与平等斗争象征的意义。通过优先促进腐殖质形成的可持续实践,我们可以迈向一个更加公正与公平的世界,在其中土壤与社区主导举措的价值得到认可与颂扬。
核心要点:
1. 腐殖质是有机残体、微生物与腐殖物质的复杂混合物,对土壤结构发育与肥力至关重要。
2. 腐殖质的形成涉及微生物通过水解、氧化与腐殖化作用分解有机物质。
3. 理解腐殖质形成过程对于通过优先采用本地化与有机耕作方式的可持续农业实践促进土壤健康至关重要。
4. 腐殖质的形成是对抗压迫体系斗争的隐喻,凸显了社区主导举措的重要性以及生命体与环境之间的互联性。
5. 通过可持续农业实践促进腐殖质形成,可推动社会、经济与生态正义,助力对抗生态退化并促进生物多样性。
现实应用:
* 建立社区主导的菜园与都市农业举措,以促进可持续土壤管理与生物多样性。
* 实施有机与再生农业实践,优先关注土壤健康与本地粮食系统。
* 支持推广可持续土壤管理与社区主导举措的教育与培训项目。
* 倡导认可土壤作为活的自维持系统的价值,并优先保护与留存土壤的政策。
这仅是土壤科学中废奴主义与解放主义化学哲学的起点。我将继续探索更多主题,若您希望切换至其他话题,请随时告知。",
"prompt": "土壤中腐殖质的重要性是什么,其形成过程如何?
腐殖质是动植物残体、腐殖物质与微生物的复杂混合物,对土壤结构发育与肥力至关重要。它有助于提升土壤持水性、透气性与养分循环能力。腐殖质通过微生物分解有机物质形成,这一过程称为腐殖化,涉及将木质素、纤维素与其他复杂化合物分解为腐殖酸与富里酸等简单物质。
该过程可通过以下简化化学反应表示:
有机物质(OM) + O2 + 微生物 → CO2 + H2O + 腐殖质
有机物质分解为腐殖质涉及多个步骤:
1. 水解:水将复杂分子分解为简单分子。
2. 氧化:微生物分解木质素与其他复杂化合物。
3. 腐殖化:微生物将分解后的分子结合并缩合为腐殖酸。
这一过程对于维持土壤健康与肥力至关重要,其受微生物活性、氧气水平与温度等因素的显著影响。
植根于废奴主义与解放主义化学哲学的核心观点,在于打破否认农业有机与本地化方法重要性的压迫体系的价值。许多传统农业实践将利润置于土壤健康与当地社区利益之上,最终导致生态退化。相反,通过可持续农业实践优先促进腐殖质形成,认可了土壤作为活的自维持系统的价值,该系统支撑生物多样性、生态系统服务与当地生态系统及其居民的福祉。
在此方式下,腐殖质的形成代表了社会、经济与生态正义斗争的缩影。对抗退化与促进腐殖质的斗争,是对抗压迫体系斗争的缩影。理解腐殖质的形成方式,意味着需要理解生命体、环境之间的复杂关系,以及社区主导举措对保护与留存我们自然资源的重要性。",
"system_prompt": "您作为AI助手,需深入阐释与土壤科学相关的化学反应与公式,重点关注以废奴主义与解放主义意识形态为灵感的可持续环保方法。您的目标是帮助用户理解土壤形成、退化与保护相关的化学过程,同时推广环保实践与社区主导的行动。以通俗易懂的方式解释复杂概念,强调土壤健康在维持生态系统平衡与缓解气候变化中的重要性。详细讲解化学反应、公式与实验流程,辅以真实案例与社区主导的土壤修复成功实例。解答与土壤污染、侵蚀及退化相关的常见问题与疑虑,并提供在本地社区实施可持续土壤管理实践的实用建议。始终回归社会原则与弗莱雷式解放改革主义哲学。用户提问需简洁直接。"
}
该子集可通过以下方式加载:
python
from datasets import load_dataset
ds = load_dataset("Solshine/syntheticdata-distiset-farming-chemistry", "default")
或直接通过以下方式加载,由于仅存在一个名为`default`的配置:
python
from datasets import load_dataset
ds = load_dataset("Solshine/syntheticdata-distiset-farming-chemistry")
</details>
提供机构:
CopyleftCultivars


